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Sample records for materials science division

  1. Materials Sciences Division 1990 annual report

    1990-12-31

    This report is the Materials Sciences Division`s annual report. It contains abstracts describing materials research at the National Center for Electron Microscopy, and for research groups in metallurgy, solid-state physics, materials chemistry, electrochemical energy storage, electronic materials, surface science and catalysis, ceramic science, high tc superconductivity, polymers, composites, and high performance metals.

  2. Berkeley Lab - Materials Sciences Division

    , which aims to showcase some of the latest material science and metallurgy content published in the Synthesis Condensed Matter and Materials Physics Scattering and Instrumentation Science Centers Center for intrinsically consist of atomic rotation Scientists Discover Material Ideal for Smart Photovoltaic Windows A

  3. Materials Sciences Division 1990 annual report

    1990-01-01

    This report is the Materials Sciences Division's annual report. It contains abstracts describing materials research at the National Center for Electron Microscopy, and for research groups in metallurgy, solid-state physics, materials chemistry, electrochemical energy storage, electronic materials, surface science and catalysis, ceramic science, high tc superconductivity, polymers, composites, and high performance metals.

  4. Materials Sciences Division 1990 annual report

    1990-01-01

    This report is the Materials Sciences Division's annual report. It contains abstracts describing materials research at the National Center for Electron Microscopy, and for research groups in metallurgy, solid-state physics, materials chemistry, electrochemical energy storage, electronic materials, surface science and catalysis, ceramic science, high tc superconductivity, polymers, composites, and high performance metals

  5. Berkeley Lab - Materials Sciences Division

    conjugation using genetically encoded aldehyde tags. Nature Protocols 7, 1052 (2012). abstract » J. Y. Shu, R . Onoe, R. A. Mathies and M. B. Francis. Direct Attachment of Microbial Organisms to Material Surfaces -modified proteins to their binding partners. Proceedings of the National Academy of Sciences 109, 4834

  6. Materials Sciences Division long range plan

    1984-12-01

    The intent of this document is to provide a framework for programmatic guidance into the future for Materials Sciences. The Materials Sciences program is the basic research program for materials in the Department of Energy. It includes a wide variety of activities associated with the sciences related to materials. It also includes the support for developing, constructing, and operating major facilities which are used extensively but not exclusively by the materials sciences

  7. Division of Materials Science (DMS) meeting presentation

    Cline, C.F.; Weber, M.J.

    1982-11-08

    Materials preparation techniques are listed. Materials preparation capabilities are discussed for making BeF/sub 2/ glasses and other materials. Materials characterization techniques are listed. (DLC)

  8. Materials Science Division activity report 1991-1993

    Amarendra, G.; Tiwari, A.M.; Subramanian, N.; Venugopal Rao, G.

    1995-01-01

    This progress report gives an account of the various research and developmental activities carried out at the Materials Science Division of the Indira Gandhi Centre for Atomic Research, Kalpakkam during 1991-93. It also gives a summary of the results of the research activities, describes the experimental facilities and also list the publications

  9. Materials Science Division progress report 1986-1988

    Kumar, Vijay; Vasumathi, D.; Chandra Sekhar, N.V.

    1990-01-01

    This is a report on the various Research and Developmental (R and D) activities carried out in the Materials Science Division during the period 1986-88. Most contributions have been presented in the form of abstracts and wherever possible results of several contributions on a related problem have been consolidated into one. The R and D activities covered the following areas: (1) quasicrystalline phase, (2) high temperature superconducting behaviour in metal oxides, (3) physics of colloidal suspensions, (4) behaviour of materials under high pressure, (5) radiation effects in complex alloy systems, (6) inert gas behaviour in metals, and production of crystals, particularly of volatile semiconducting compounds. The lists of publications by the members of the Division and seminars held during 1986-88 are given at the end of the report. (a uthor)

  10. Materials and Chemical Sciences Division annual report, 1987

    1988-07-01

    Research programs from Lawrence Berkeley Laboratory in materials science, chemical science, nuclear science, fossil energy, energy storage, health and environmental sciences, program development funds, and work for others is briefly described. (CBS)

  11. Materials and Chemical Sciences Division annual report, 1987

    1988-07-01

    Research programs from Lawrence Berkeley Laboratory in materials science, chemical science, nuclear science, fossil energy, energy storage, health and environmental sciences, program development funds, and work for others is briefly described

  12. Metals and Ceramics Division Materials Science Program. Annual progress report for period ending December 31, 1982

    McHargue, C.J.

    1983-05-01

    This report summarizes the activities of the Materials Sciences Program in the Metals and Ceramics Division. These activities constitute about one-fourth of the research and development conducted by the division. The major elements of the Materials Sciences Program can be grouped under the areas of (1) structural characterization, (2) high-temperature alloy studies, (3) structural ceramics, and (4) radiation effects

  13. Materials and Chemical Sciences Division annual report 1989

    1990-07-01

    This report describes research conducted at Lawrence Berkeley Laboratories, programs are discussed in the following topics: materials sciences; chemical sciences; fossil energy; energy storage systems; health and environmental sciences; exploratory research and development funds; and work for others. A total of fifty eight programs are briefly presented. References, figures, and tables are included where appropriate with each program

  14. Materials and Chemical Sciences Division annual report 1989

    1990-07-01

    This report describes research conducted at Lawrence Berkeley Laboratories, programs are discussed in the following topics: materials sciences; chemical sciences; fossil energy; energy storage systems; health and environmental sciences; exploratory research and development funds; and work for others. A total of fifty eight programs are briefly presented. References, figures, and tables are included where appropriate with each program.

  15. Metals and Ceramics Division Materials Science Program. Annual progress report for period ending June 30, 1984

    McHargue, C.J.

    1984-11-01

    This report summarizes the activities of the Materials Sciences Program in the Metals and Ceramics Division for the period January 1, 1983, to June 30, 1984. These activities constitute about one-fourth of the research and development conducted by the division. The emphasis of the program can be described as the scientific design of materials. The efforts are directed toward three classes of materials: high-temperature metallic alloys based on intermetallic compounds, structural ceramics, and radiation-resistant alloys

  16. Metals and Ceramics Division Materials Science Program. Annual progress report for period ending June 30, 1984

    McHargue, C.J. (comp.)

    1984-11-01

    This report summarizes the activities of the Materials Sciences Program in the Metals and Ceramics Division for the period January 1, 1983, to June 30, 1984. These activities constitute about one-fourth of the research and development conducted by the division. The emphasis of the program can be described as the scientific design of materials. The efforts are directed toward three classes of materials: high-temperature metallic alloys based on intermetallic compounds, structural ceramics, and radiation-resistant alloys.

  17. Materials Science Division HVEM-Tandem Facility at Argonne National Laboratory

    Taylor, A.

    1981-10-01

    The ANL-Materials Science Division High Voltage Electron Microscope-Tandem Facility is a unique national research facility available to scientists from industry, universities, and other national laboratories, following a peer evaluation of their research proposals by the Facility Steering Committee. The principal equipment consists of a Kratos EM7 1.2-MV high voltage electron microscope, a 300-kV Texas Nuclear ion accelerator, and a National Electrostatics 2-MV Tandem accelerator. Ions from both accelerators are transmitted into the electron microscope through the ion-beam interface. Recent work at the facility is summarized

  18. Technical activities, 1990: Surface Science Division

    Powell, C.J.

    1991-05-01

    The report summarizes technical activities and accomplishments of the NIST Surface Science Division during Fiscal Year 1990. Overviews are presented of the Division and of its three constituent groups: Surface Dynamical Processes, Thin Films and Interfaces, and Surface Spectroscopies and Standards. These overviews are followed by reports of selected technical accomplishments during the year. A summary is given of Division outputs and interactions that includes lists of publications, talks, committee assignments, seminars (including both Division seminars and Interface Science seminars arranged through the Division), conferences organized, and a standard reference material certified. Finally, lists are given of Division staff and of guest scientists who have worked in the Division during the past year

  19. Advances in materials science, metals and ceramics division. Triannual progress report, June-September 1980

    Truhan, J.J.; Hopper, R.W.; Gordon, K.M.

    1980-01-01

    Information is presented concerning the magnetic fusion energy program; the laser fusion energy program; geothermal research; nuclear waste management; Office of Basic Energy Sciences (OBES) research; diffusion in silicate minerals; chemistry research resources; and chemistry and materials science research

  20. Advances in materials science, Metals and Ceramics Division. Triannual progress report, October 1979-January 1980

    1980-03-31

    Progress is summarized concerning magnetic fusion energy materials, laser fusion energy, aluminium-air battery and vehicle, geothermal research, oil-shale research, nuclear waste management, office of basic energy sciences research, and materials research notes. (FS)

  1. Metals and Ceramics Division materials science annual progress report for period ending June 30, 1977

    McHargue, C.J.

    1977-09-01

    Progress is reported for research programs in the metals and ceramics division of ORNL. In structure of materials, theoretical research, x-ray diffraction studies, studies of erosion of ceramics, preparation and synthesis of high temperature and special service materials, and studies of stabilities of microphases in high-temperature structural materials. Research into deformation and mechanical properties included physical metallurgy, and grain boundary segregation and embrittlement. Physical properties and transport phenomena were studied and included mechanisms of surface and solid state reactions, and properties of superconducting materials. The radiation effects program, directed at understanding the effects of composition and microstructure on the structure and properties of materials irradiated at elevated temperatures, is also described

  2. Materials science

    Anon.

    1977-01-01

    The Materials Science Division is engaged in research on physical properties of materials and the effects of radiation upon them. This involves solid state materials undergoing phase transitions, energy storing materials, and biomaterials. The Division also offers research facilities for M.S. and Ph.D. thesis work in the fields of physics, chemistry, materials, and radiation sciences in cooperation with the various colleges and departments of the UPR Mayaguez Campus. It is anticipated that it will serve as a catalyst in starting energy-related research programs in cooperation with UPR faculty, especially programs involving solar energy. To encourage and promote cooperative efforts, contact is maintained with former graduate students and with visiting scientists from Latin American research institutions

  3. Division of Integrity and Materials

    Zdarek, J.

    1995-01-01

    The organization structure is described of the Division of Integrity and Materials, Institute of Nuclear Research plc, Rez, and the main fields of their activities given. Listed are the major research projects of the Division in 1994. (Z.S.)

  4. Surface and catalysis science in the Materials and Molecular Research Division

    1980-01-01

    Surface science studies at Lawrence Berkeley Laboratory are detailed. Subject areas include: structure of surfaces and adsorbed monolayers; reduction and oxidation of surfaces; catalytic chemistry; and structure of interfaces and thin films

  5. Metals and Ceramics Division materials science annual progress report for period ending June 30, 1978

    McHargue, C.J.; Peterson, S.

    1978-09-01

    Topics covered include: structure of materials, theoretical research; x-ray diffraction research; fundamental ceramics studies; preparation and synthesis of high-temperature and special service materials; physical metallurgy; grain boundary segregation and fracture; mechanisms of surface and solid-state reactions; physical properties research; superconducting materials; radiation effects; facility and technique development; nuclear microanalysis; cooperative studies with universities and other research organizations; and fundamentals of welding and joining

  6. Metals and ceramics division materials science program. Aunnual progress report for period ending June 30, 1979

    McHargue, C.J.; b.

    1979-10-01

    Progress is reported concerning theoretical studies of metals and alloys, deformation and mechanical properties, physical properties and transport phenomena, radiation effects, and engineering materials. During this period emphasis was shifted from support of nuclear technologies to support of nonnuclear energy systems

  7. Metals and ceramics division materials science program. Aunnual progress report for period ending June 30, 1979

    McHargue, C.J.

    1979-10-01

    Progress is reported concerning theoretical studies of metals and alloys, deformation and mechanical properties, physical properties and transport phenomena, radiation effects, and engineering materials. During this period emphasis was shifted from support of nuclear technologies to support of nonnuclear energy systems. (FS)

  8. Metals and Ceramics Division Materials Sciences Program: Annual progress report for period ending June 30, 1987

    Stiegler, J.O. (comp.)

    1988-04-01

    The program is directed at uncovering principles for the scientific design of materials. The efforts emphasize three classes of materials: high-temperature metallic alloys based on intermetallic compounds, structural ceramics, and radiation-resistant alloys. The first two materials are central to the theme of the High Temperature Materials Laboratory, and the third supports the Laboratory's mission in fission and fusion reactor technology. We combine the use of unique structural characterization facilities, the activities of the Theory Group, and accurate property determination to establish structure-property relationships. An important aspect of the program is the interaction with universities, industry, and other laboratories. Two collaborative research centers established to aid these interactions are SHaRe and ORSOAR, which make our strong structural characterization capabilities available to researchers outside ORNL. Their research activities and capabilities are summarized in Chap. 1, ''Structural Characterization,'' and Chap. 6, ''Collaborative Research Centers.'' Other interactions with the scientific community are summarized in the Appendixes.

  9. Metals and Ceramics Division materials science program. Annual progress report for period ending June 30, 1981

    McHargue, C.J. (comp.)

    1981-09-01

    Information is presented concerning the theoretical studies of metals and alloys; x-ray diffraction research; structural ceramics; structure of coal; analytical and high-voltage electron microscopy; deformation and mechanical properties; mechanisms of surface and solid-state reactions; physical properties research; metastable materials; neutron radiation effects; charged particle radiation effects; theory and modeling of radiation effects; facility and advanced technique development; fundamentals of welding and joining; and studies in nondestructive evaluation.

  10. Metals and Ceramics Division materials science program. Annual progress report for period ending June 30, 1981

    McHargue, C.J.

    1981-09-01

    Information is presented concerning the theoretical studies of metals and alloys; x-ray diffraction research; structural ceramics; structure of coal; analytical and high-voltage electron microscopy; deformation and mechanical properties; mechanisms of surface and solid-state reactions; physical properties research; metastable materials; neutron radiation effects; charged particle radiation effects; theory and modeling of radiation effects; facility and advanced technique development; fundamentals of welding and joining; and studies in nondestructive evaluation

  11. Inorganic Materials Division annual report, 1975

    Duba, A.; Hornady, B.

    1976-01-01

    This compilation lists abstracts of papers, internal reports, and talks presented during 1975 at national and international meetings by members of the Geoscience and Engineering Section, Inorganic Materials Division, Chemistry and Materials Science Department, Lawrence Livermore Laboratory. Titles of talks at university and local meetings are also listed when available. The subjects range from the in situ retorting of coal to the temperature profile of the moon. A subject classification is included

  12. Materials division facilities and equipment

    Biest, O. v.d.

    1984-01-01

    The research activities of the Division at the Petten Establishment have the aims of characterising the properties of high temperature materials in industrial process environments and of understanding the structures involved in order to gain an insight into behavioural mechanisms. Metallic materials fall within the scope of the programme; the activities are, at present, almost entirely concerned with austenitic steels and nickel based alloys. Starting in 1984, advanced ceramic materials will be studied as well. The equipment available permits the study of mechanical properties in controlled gaseous environments, of the rates and mechanisms of corrosive reactions between materials and those environments, and of the surface and bulk structures by advanced physical techniques. Special preparation and treatment techniques are available. The Division has developed a Data Bank on high temperature alloys. It also operates an information Centre, the activities of which include the organisation of scientific meetings, the commissioning of ''state of the art'' studies on topics in the field of high temperature materials and their applications and the development of a inventory of current research activities in the field in Europe. This booklet is intended to present the facilities and services of the Division to the organizations which are interested in its programmes of work

  13. DOE Final Report -NON-LINEAR WAVES IN CONTINUOUS MEDIA- BES- Division of Engineering and Materials Science

    Seth J. Putterman

    2006-01-01

    FINAL REPORT ON : NON-LINEAR WAVES IN CONTINUOUS MEDIA Doe DE FG03-87ER13686 (001312-001) Submitted January 10, 2006 by Seth J. Putterman 310-8252269 Physics Department University of California Los Angeles, CA 90095 puherman at ritva.physics.ucla.edu NON-LINEAR WAVES IN CONTINUOUS MEDIA I am happy to report that this project has been a big success. For over 10 years the DOE [Division of Materials Sciences and Engineering] has funded our research program on the overarching theme of spontaneous energy focusing phenomena. These effects occur when a nonlinear macroscopic system is excited so as to drive it far from equilibrium. The subsequent relaxation to equilibrium does not occur smoothly but instead is accompanied by the formation of structured domains where the energy density is highly concentrated. A signature example is picosecond sonoluminescence [1] wherein a smooth sound wave has its energy density focused by 12 orders of magnitude to generate a clock-like string of picosecond flashes of ultraviolet light. Our earlier work on solitons [2] demonstrated how uniform surface waves break up into stable localized structures. Our experimental work on turbulence produced photos of localized structures lying many standard deviations outside the range of gaussian statistics[3]. This effect is referred to as intermittency. Our recent work on friction finds its motivation in those theories of sonoluminescence which invoke frictional electricity. In its most common form this is the generation of a spark when we touch a doorknob after walking over a carpet. Our reading of the literature on this subject indicated that frictional electricity like sonoluminescence is not understood. So to probe triboelectrification we set up a modern version of an experiment performed by Bernoulli in 1700. Here sparking is caused by the rubbing of glass against mercury. We indeed observed flashes of light which were accompanied by events of stick-slip friction at the interface between the

  14. Division of information and quantum sciences

    2016-01-01

    The advent of the digital society where tremendous amount of information is electronically accessible has brought the intelligent information processing technologies indispensable. This division consists of seven departments; Information Science Departments (Knowledge Science, Intelligent Media, Architecture for Intelligence, Reasoning for Intelligence), Quantum Science Departments (Photonic and Electronic Materials, Semiconductor Electronics, and Advanced Electron Devices. The former four and the latter three departments aim to establish fundamental techniques to support the advanced digital society in terms of software and hardware technologies respectively. The departments on the former software technologies work on the task of computerizing the intelligent human information processing capability to help solving difficult engineering problems and assist intellectual activities. The departments on the latter hardware technologies pursue various approaches in the fields of electronic materials design and tailoring, surface physics, nanometer scale materials fabrication and characterization, semiconductor nanostructures for quantum devices, semiconductor-based new bio/chemical sensors, organic materials and biomolecules. We challenge to output world-widely significant achievements under our systematic cooperation, and further collaborate with researchers of domestic and overseas universities, research institutes and private companies. Moreover, we educate many graduate students belonging to Graduate School of Science (Department of Physics), Graduate School of Engineering (Department of Electrical, Electronic and Information Engineering, Department of Applied Physics), Graduate School of Engineering Science (Department of Materials Engineering Science), and Graduate School of Information Science and Technology (Department of Computer Science, Department of Information and Physical Sciences) under the aim to grow young researchers having both advanced knowledge and

  15. Material Science

    Won, Dong Yeon; Kim, Heung

    1987-08-15

    This book introduces material science, which includes key of a high-tech industry, new materials of dream like new metal material and semiconductor, classification of materials, microstructure of materials and characteristic. It mentions magic new materials such as shape memory alloy, fine ceramics, engineering fine ceramics, electronic ceramics, engineering plastic, glass, silicone conductor, optical fiber mixed materials and integrated circuit, challenge for new material and development of new materials.

  16. Material Science

    Won, Dong Yeon; Kim, Heung

    1987-08-01

    This book introduces material science, which includes key of a high-tech industry, new materials of dream like new metal material and semiconductor, classification of materials, microstructure of materials and characteristic. It mentions magic new materials such as shape memory alloy, fine ceramics, engineering fine ceramics, electronic ceramics, engineering plastic, glass, silicone conductor, optical fiber mixed materials and integrated circuit, challenge for new material and development of new materials.

  17. Dr. Hans Chang, Director, Physics Research Committee, Stichting voor Fundamenteel Onderzoek der Materie (FOM), Dr. Joris Van Enst, Head of Science Policy Division, Ministry of Education, Culture and S cience, Dr. Jan Bezemer, NL Delegate CERN, Netherlands

    Patrice Loiez

    1999-01-01

    Dr. Hans Chang, Director, Physics Research Committee, Stichting voor Fundamenteel Onderzoek der Materie (FOM), Dr. Joris Van Enst, Head of Science Policy Division, Ministry of Education, Culture and S cience, Dr. Jan Bezemer, NL Delegate CERN, Netherlands

  18. Medical Sciences Division report for 1993

    1993-01-01

    This year's Medical Sciences Division (MSD) Report is organized to show how programs in our division contribute to the core competencies of Oak Ridge Institute for Science and Education (ORISE). ORISE's core competencies in education and training, environmental and safety evaluation and analysis, occupational and environmental health, and enabling research support the overall mission of the US Department of Energy (DOE)

  19. Earth Sciences Division, collected abstracts-1977

    Quitiquit, W.A.; Ledbetter, G.P.; Henry, A.L.

    1978-01-01

    This report is a compilation of abstracts of papers, internal reports, and talks presented during 1977 at national and international meetings by members of the Earth Sciences Division, Lawrence Livermore Laboratory. It is arranged alphabetically by author and includes a cross-reference by subject indicating the areas of research interest of the Earth Sciences Division

  20. Materials science

    2002-01-01

    the document is a collection of papers on different aspects of materials science. It discusses many items such as semiconductors, surface properties and interfaces, construction and civil engineering, metallic materials, polymers and composites, biology and biomaterials, metallurgy etc.. - 1 - Document1 Document1

  1. Materials Science Programs

    1990-03-01

    The Division of Materials Sciences is located within the Department of Energy in the Office of Basic Energy Sciences. The Office of Basic Energy Sciences reports to the Director of the Office of Energy Research. The Director of this office is appointed by the President with Senate consent. The Director advises the Secretary on the physical research program; monitors the Department's R ampersand D programs; advises the Secretary on management of the laboratories under the jurisdiction of the Department, excluding those that constitute part of the nuclear weapon complex; and advises the Secretary on basic and applied research activities of the Department. The research covers a spectrum of scientific and engineering areas of interest to the Department of Energy and is conducted generally by personnel trained in the disciplines of Solid State Physics, Metallurgy, Ceramics, Chemistry, Polymers and Materials Science. The Materials Sciences Division supports basic research on materials properties and phenomena important to all energy systems. The aim is to provide the necessary base of materials knowledge required to advance the nation's energy programs. This report contains a listing of research underway in FY 1989 together with a convenient index to the Division's programs

  2. Earth Sciences Division collected abstracts: 1979

    Henry, A.L.; Schwartz, L.L.

    1980-01-01

    This report is a compilation of abstracts of papers, internal reports, and talks presented during 1979 at national and international meetings by members of the Earth Sciences Division, Lawrence Livermore Laboratory. The arrangement is alphabetical (by author). For a given report, a bibliographic reference appears under the name of each coauthor, but the abstract iself is given only under the name of the first author or the first Earth Sciences Division author. A topical index at the end of the report provides useful cross references, while indicating major areas of research interest in the Earth Sciences Division

  3. Earth Sciences Division annual report 1981

    1982-09-01

    Separate abstracts were prepared for the 59 papers of the 1981 annual report of the Earth Sciences Division at Lawrence Berkeley Laboratory. The general topics covered included nuclear waste isolation, geophysics and reservoir engineering, and geosciences

  4. 2002 Microgravity Materials Science Conference

    Gillies, Donald (Editor); Ramachandran, Narayanan (Editor); Murphy, Karen (Editor); McCauley, Dannah (Editor); Bennett, Nancy (Editor)

    2003-01-01

    The 2002 Microgravity Materials Science Conference was held June 25-26, 2002, at the Von Braun Center, Huntsville, Alabama. Organized by the Microgravity Materials Science Discipline Working Group, sponsored by the Physical Sciences Research Division, NASA Headquarters, and hosted by NASA Marshall Space Flight Center and member institutions under the Cooperative Research in Biology and Materials Science (CORBAMS) agreement, the conference provided a forum to review the current research and activities in materials science, discuss the envisioned long-term goals, highlight new crosscutting research areas of particular interest to the Physical Sciences Research Division, and inform the materials science community of research opportunities in reduced gravity. An abstracts book was published and distributed at the conference to the approximately 240 people attending, who represented industry, academia, and other NASA Centers. This CD-ROM proceedings is comprised of the research reports submitted by the Principal Investigators in the Microgravity Materials Science program.

  5. Earth Sciences Division, collected abstracts, 1978

    Taasevigen, D.K.; Henry, A.L.; Madsen, S.K.

    1979-01-01

    Abstracts of papers, internal reports, and talks presented during 1978 at national and international meetings by members of the Earth Sciences Division of the Lawrence Livermore Laboratory are compiled. The arrangement is alphabetical (by author). For any given report, a bibliographic reference appears under the name of each coauthor. A topical index at the end provides useful cross references, while indicating major areas of research interest in the Earth Sciences Division

  6. Medical Sciences Division report for 1993

    1993-12-31

    This year`s Medical Sciences Division (MSD) Report is organized to show how programs in our division contribute to the core competencies of Oak Ridge Institute for Science and Education (ORISE). ORISE`s core competencies in education and training, environmental and safety evaluation and analysis, occupational and environmental health, and enabling research support the overall mission of the US Department of Energy (DOE).

  7. Earth Sciences Division collected abstracts: 1980

    Henry, A.L.; Hornady, B.F. (eds.)

    1981-10-15

    This report is a compilation of abstracts of papers, reports, and talks presented during 1980 at national and international meetings by members of the Earth Sciences Division, Lawrence Livermore National Laboratory. The arrangement is alphabetical (by author). For a given report, a bibliographic reference appears under the name of each coauthor, but the abstract itself is given only under the name of the first author (indicated in capital letters) or the first Earth Sciences Division author.

  8. Earth Sciences Division annual report 1989

    1990-06-01

    This Annual Report presents summaries of selected representative research activities from Lawrence Berkeley Laboratory grouped according to the principal disciplines of the Earth Sciences Division: Reservoir Engineering and Hydrology, Geology and Geochemistry, and Geophysics and Geomechanics. We are proud to be able to bring you this report, which we hope will convey not only a description of the Division's scientific activities but also a sense of the enthusiasm and excitement present today in the Earth Sciences.

  9. Earth Sciences Division collected abstracts: 1980

    Henry, A.L.; Hornady, B.F.

    1981-01-01

    This report is a compilation of abstracts of papers, reports, and talks presented during 1980 at national and international meetings by members of the Earth Sciences Division, Lawrence Livermore National Laboratory. The arrangement is alphabetical (by author). For a given report, a bibliographic reference appears under the name of each coauthor, but the abstract itself is given only under the name of the first author (indicated in capital letters) or the first Earth Sciences Division author

  10. Chemical Sciences Division: Annual report 1992

    1993-10-01

    The Chemical Sciences Division (CSD) is one of twelve research Divisions of the Lawrence Berkeley Laboratory, a Department of Energy National Laboratory. The CSD is composed of individual groups and research programs that are organized into five scientific areas: Chemical Physics, Inorganic/Organometallic Chemistry, Actinide Chemistry, Atomic Physics, and Physical Chemistry. This report describes progress by the CSD for 1992. Also included are remarks by the Division Director, a description of work for others (United States Office of Naval Research), and appendices of the Division personnel and an index of investigators. Research reports are grouped as Fundamental Interactions (Photochemical and Radiation Sciences, Chemical Physics, Atomic Physics) or Processes and Techniques (Chemical Energy, Heavy-Element Chemistry, and Chemical Engineering Sciences)

  11. Bulletin of Materials Science | News

    Author Affiliations. V V Deshpande1 M M Patil1 S C Navale2 V Ravi1. Physical and Materials Chemistry Division, National Chemical Laboratory, Pune 411 008, India; Polymer Science and Engineering Division, National Chemical Laboratory, Pune 411 008, India ...

  12. Materials Science

    2003-01-01

    The Materials Science Program is structured so that NASA s headquarters is responsible for the program content and selection, through the Enterprise Scientist, and MSFC provides for implementation of ground and flight programs with a Discipline Scientist and Discipline Manager. The Discipline Working Group of eminent scientists from outside of NASA acts in an advisory capacity and writes the Discipline Document from which the NRA content is derived. The program is reviewed approximately every three years by groups such as the Committee on Microgravity Research, the National Materials Advisory Board, and the OBPR Maximization and Prioritization (ReMaP) Task Force. The flight program has had as many as twenty-six principal investigators (PIs) in flight or flight definition stage, with the numbers of PIs in the future dependent on the results of the ReMaP Task Force and internal reviews. Each project has a NASA-appointed Project Scientist, considered a half-time job, who assists the PI in understanding and preparing for internal reviews such as the Science Concept Review and Requirements Definition Review. The Project Scientist also insures that the PI gets the maximum science support from MSFC, represents the PI to the MSFC community, and collaborates with the Project Manager to insure the project is well-supported and remains vital. Currently available flight equipment includes the Materials Science Research Rack (MSRR-1) and Microgravity Science Glovebox. Ground based projects fall into one or more of several categories. Intellectual Underpinning of Flight Program projects include theoretical studies backed by modeling and computer simulations; bring to maturity new research, often by young researchers, and may include preliminary short duration low gravity experiments in the KC-135 aircraft or drop tube; enable characterization of data sets from previous flights; and provide thermophysical property determinations to aid PIs. Radiation Shielding and preliminary In

  13. Nuclear Science Division: 1993 Annual report

    Myers, W.D.

    1994-06-01

    This report describes the activities of the Nuclear Science Division for the 1993 calendar year. This was another significant year in the history of the Division with many interesting and important accomplishments. Activities for the following programs are covered here: (1) nuclear structure and reactions program; (2) the Institute for Nuclear and Particle Astrophysics; (3) relativistic nuclear collisions program; (4) nuclear theory program; (5) nuclear data evaluation program, isotope project; and (6) 88-inch cyclotron operations

  14. Nuclear Science Division: 1993 Annual report

    Myers, W.D. [ed.

    1994-06-01

    This report describes the activities of the Nuclear Science Division for the 1993 calendar year. This was another significant year in the history of the Division with many interesting and important accomplishments. Activities for the following programs are covered here: (1) nuclear structure and reactions program; (2) the Institute for Nuclear and Particle Astrophysics; (3) relativistic nuclear collisions program; (4) nuclear theory program; (5) nuclear data evaluation program, isotope project; and (6) 88-inch cyclotron operations.

  15. Life Sciences Division annual report, 1988

    Marrone, B.L.; Cram, L.S. (comps.)

    1989-04-01

    This report summarizes the research and development activities of Los Alamos National Laboratory's Life Sciences Division for the calendar year 1988. Technical reports related to the current status of projects are presented in sufficient detail to permit the informed reader to assess their scope and significance. Summaries useful to the casual reader desiring general information have been prepared by the Group Leaders and appear in each group overview. Investigators on the staff of the Life Sciences Division will be pleased to provide further information.

  16. Life Sciences Division annual report, 1988

    Marrone, B.L.; Cram, L.S.

    1989-04-01

    This report summarizes the research and development activities of Los Alamos National Laboratory's Life Sciences Division for the calendar year 1988. Technical reports related to the current status of projects are presented in sufficient detail to permit the informed reader to assess their scope and significance. Summaries useful to the casual reader desiring general information have been prepared by the Group Leaders and appear in each group overview. Investigators on the staff of the Life Sciences Division will be pleased to provide further information

  17. The Astrophysics Science Division Annual Report 2008

    Oegerle, William; Reddy, Francis; Tyler, Pat

    2009-01-01

    The Astrophysics Science Division (ASD) at Goddard Space Flight Center (GSFC) is one of the largest and most diverse astrophysical organizations in the world, with activities spanning a broad range of topics in theory, observation, and mission and technology development. Scientific research is carried out over the entire electromagnetic spectrum from gamma rays to radio wavelengths as well as particle physics and gravitational radiation. Members of ASD also provide the scientific operations for three orbiting astrophysics missions WMAP, RXTE, and Swift, as well as the Science Support Center for the Fermi Gamma-ray Space Telescope. A number of key technologies for future missions are also under development in the Division, including X-ray mirrors, and new detectors operating at gamma-ray, X-ray, ultraviolet, infrared, and radio wavelengths. This report includes the Division's activities during 2008.

  18. Earth Sciences Division annual report, 1976

    Hornady, B.; Duba, A.

    1977-01-01

    This compilation lists abstracts of papers, internal reports, and talks presented during 1976 at national and international meetings by members of the Earth Sciences Division, Lawrence Livermore Laboratory. Subjects include: coal gasification, gas stimulation, geothermal fields, oil shale retorting, radioactive waste management, geochemistry, geophysics, seismology, explosive phenomenology, and miscellaneous studies

  19. Earth Sciences Division annual report 1980

    1981-07-01

    Summaries of the highlights of programs in the Earth Sciences Division are presented under four headings; Geosciences, Geothermal Energy Development, Nuclear Waste Isolation, and Marine Sciences. Utilizing both basic and applied research in a wide spectrum of topics, these programs are providing results that will be of value in helping to secure the nation's energy future. Separate abstracts have been prepared for each project for inclusion in the Energy Data Base. (DMC)

  20. Chemical and Laser Sciences Division annual report 1989

    Haines, N.

    1990-06-01

    The Chemical and Laser Sciences Division Annual Report includes articles describing representative research and development activities within the Division, as well as major programs to which the Division makes significant contributions

  1. Environment and Medical Sciences Division Progress Report

    Hainge, W.M.

    1980-06-01

    The 1979 annual progress report of the UKAEA Environmental and Medical Sciences Division covers both radiological and non-nuclear research programmes in the environmental and toxicological fields. The specific topics were 1) 'atmospheric pollution' which included the analysis of atmospheric trace gases by gas chromatography/mass spectrometry, the life cycle of atmospheric sulphur compounds, photochemical pollution, studies on stratospheric reactions, stratospheric ozone and the effects of pollutants, upper air sampling and monitoring gaseous atmospheric pollutants with passive samplers; 2) miscellaneous 'environmental safety projects'; 3) 'radiation physics' projects concerning a) radioactive fallout, b) studies of stable trace elements in the atmospheric environment and studies of radioactivity in the environment, c) various aspects of dosimetry research including radiation biophysics, d) personnel dosimetry, e) applied radiation spectrometry and f) data systems; 5) 'aerosol and metabolic studies' including whole body counting studies; 6) 'inhalation toxicology and radionuclide analysis' studies including actinide inhalation, cytotoxicity and fibrogenicity of non-radioactive dusts, asbestos and glass fibre research, a Qauntimet 720 image analysis service and radionuclide analysis in biological materials; and 7) 'analytical services' used in relation to 'environmental safety and chemical analysis' projects. (U.K.)

  2. Progress report, Health Sciences Division

    1980-11-01

    A re-designed automatic TLD reader has been constructed. The thermoluminescent material MgB 4 O 7 :Dy appears to be attractive for environmental gamma monitoring. The field prototype of a simple, light weight tritium monitor is being built, and field-tests of a pocket warning dosimeter have been completed. A computer program for the calculation of beta doses from point and plane sources has been used to calculate distributions for 90 nuclides. Research into the adsorption of 134 Cs, 60 Co and 90 Sr onto soil particles and processes associated with the release of these nuclides is continuing. Studies are being carried out into the culture of algae in municipal wastewater, heat and solute transfer in lakes, and groundwater seepage flow into lakes. Radiation biology work continues to deal with radiation damage of DNA and cellular repair mechanisms. A metabolic model for the tellurium-iodine decay chain has been completed. (LL)

  3. Berkeley Lab - Materials Sciences Division

    culture and policies at MSD MSD0010: Integrated Safety Management: Principles and Case Studies Calendar ? Click Here! Resources for MSD Safety MSD Safety MSD's Integrated Safety Management Plan [PDF] Safety for MSD classes on Integrated Safety Management MSD0015 Handout - Waste Briefing Document [PDF] Waste

  4. Computational Materials Science | Materials Science | NREL

    Computational Materials Science Computational Materials Science An image of interconnecting, sphere science capabilities span many research fields and interests. Electronic, Optical, and Transport Properties of Photovoltaic Materials Material properties and defect physics of Si, CdTe, III-V, CIGS, CZTS

  5. Materials and Components Technology Division research summary, 1992

    1992-11-01

    The Materials and Components Technology Division (MCT) provides a research and development capability for the design, fabrication, and testing of high-reliability materials, components, and instrumentation. Current divisional programs related to nuclear energy support the development of the Integral Fast Reactor (IFR): life extension and accident analyses for light water reactors (LWRs); fuels development for research and test reactors; fusion reactor first-wall and blanket technology; and safe shipment of hazardous materials. MCT Conservation and Renewables programs include major efforts in high-temperature superconductivity, tribology, nondestructive evaluation (NDE), and thermal sciences. Fossil Energy Programs in MCT include materials development, NDE technology, and Instrumentation design. The division also has a complementary instrumentation effort in support of Arms Control Technology. Individual abstracts have been prepared for the database

  6. Earth Sciences Division annual report 1990

    NONE

    1991-06-01

    This Annual Report presents summaries of selected representative research activities grouped according to the principal disciplines of the Earth Sciences Division: Reservoir Engineering and Hydrogeology, Geology and Geochemistry, and Geophysics and Geomechanics. Much of the Division`s research deals with the physical and chemical properties and processes in the earth`s crust, from the partially saturated, low-temperature near-surface environment to the high-temperature environments characteristic of regions where magmatic-hydrothermal processes are active. Strengths in laboratory and field instrumentation, numerical modeling, and in situ measurement allow study of the transport of mass and heat through geologic media -- studies that now include the appropriate chemical reactions and the hydraulic-mechanical complexities of fractured rock systems. Of particular note are three major Division efforts addressing problems in the discovery and recovery of petroleum, the application of isotope geochemistry to the study of geodynamic processes and earth history, and the development of borehole methods for high-resolution imaging of the subsurface using seismic and electromagnetic waves. In 1989 a major DOE-wide effort was launched in the areas of Environmental Restoration and Waste Management. Many of the methods previously developed for and applied to deeper regions of the earth will in the coming years be turned toward process definition and characterization of the very shallow subsurface, where man-induced contaminants now intrude and where remedial action is required.

  7. Environmental and Medical Sciences Division progress report January - December, 1980

    Hainge, W.M.

    1982-02-01

    A progress report on the work performed during 1980 by the Environmental and Medical Sciences Division at UKAEA Harwell is given. The programmes considered were atmospheric pollution; landfill research; monitoring of radioactive fallout and other radionuclides and trace elements in the environment; radioactive and non-radioactive aerosol metabolic studies; inhalation toxicology of radioactive aerosols and other hazardous materials; chemical analytical services; and radiation physics in dosimetry research, applied radiation spectrometry and data systems. (U.K.)

  8. Earth Sciences Division annual report 1990

    1991-06-01

    This Annual Report presents summaries of selected representative research activities grouped according to the principal disciplines of the Earth Sciences Division: Reservoir Engineering and Hydrogeology, Geology and Geochemistry, and Geophysics and Geomechanics. Much of the Division's research deals with the physical and chemical properties and processes in the earth's crust, from the partially saturated, low-temperature near-surface environment to the high-temperature environments characteristic of regions where magmatic-hydrothermal processes are active. Strengths in laboratory and field instrumentation, numerical modeling, and in situ measurement allow study of the transport of mass and heat through geologic media -- studies that now include the appropriate chemical reactions and the hydraulic-mechanical complexities of fractured rock systems. Of particular note are three major Division efforts addressing problems in the discovery and recovery of petroleum, the application of isotope geochemistry to the study of geodynamic processes and earth history, and the development of borehole methods for high-resolution imaging of the subsurface using seismic and electromagnetic waves. In 1989 a major DOE-wide effort was launched in the areas of Environmental Restoration and Waste Management. Many of the methods previously developed for and applied to deeper regions of the earth will in the coming years be turned toward process definition and characterization of the very shallow subsurface, where man-induced contaminants now intrude and where remedial action is required

  9. FWP executive summaries: Basic energy sciences materials sciences programs

    Samara, G.A.

    1996-02-01

    This report provides an Executive Summary of the various elements of the Materials Sciences Program which is funded by the Division of Materials Sciences, Office of Basic Energy Sciences, U.S. Department of Energy at Sandia National Laboratories, New Mexico.

  10. Materials Science | NREL

    microscopy and imaging science, interfacial and surface science, materials discovery, and thin-film material Science Materials Science Illustration with bottom row showing a ball-and-stick model and top row dense black band. State-of-the-art advances in materials science come from a combination of experiments

  11. NASA Microgravity Materials Science Conference

    Gillies, D. C. (Compiler); McCauley, D. E. (Compiler)

    1999-01-01

    The Microgravity Materials Science Conference was held July 14-16, 1998 at the Von Braun Center in Huntsville, AL. It was organized by the Microgravity Materials Science Discipline Working Group, sponsored by the Microgravity Research Division at NASA Headquarters, and hosted by the NASA Marshall Space Flight Center and the Alliance for Microgravity Materials Science and Applications. It was the third NASA conference of this type in the microgravity materials science discipline. The microgravity science program sponsored approximately 125 investigations and 100 principal investigators in FY98, almost all of whom made oral or poster presentations at this conference. The conference's purpose was to inform the materials science community of research opportunities in reduced gravity in preparation for a NASA Research Announcement scheduled for release in late 1998 by the Microgravity Research Division at NASA Headquarters. The conference was aimed at materials science researchers from academia, industry, and government. A tour of the Marshall Space Flight Center microgravity research facilities was held on July 16, 1998. This volume is comprised of the research reports submitted by the principal investigators after the conference.

  12. Materials Sciences programs, Fiscal Year 1992

    1993-02-01

    The Materials Sciences Division supports basic research on materials properties and phenomena important to all energy systems. This report contains a listing of research underway in FY 1992 together with an index to the Division's programs. Recent publications from Division-sponsored panel meetings and workshops are listed. The body of the report is arranged under the following section headings: laboratories, grant and contract research, small business innovation research, major user facilities, other user facilities, funding levels, and index

  13. Goddard's Astrophysics Science Division Annual Report 2013

    Weaver, Kimberly A. (Editor); Reddy, Francis J. (Editor); Tyler, Patricia A. (Editor)

    2014-01-01

    The Astrophysics Science Division (ASD) at Goddard Space Flight Center (GSFC) is one of the largest and most diverse astrophysical organizations in the world, with activities spanning a broad range of topics in theory, observation, and mission and technology development. Scientific research is carried out over the entire electromagnetic spectrum from gamma rays to radio wavelengths as well as particle physics and gravitational radiation. Members of ASD also provide the scientific operations for two orbiting astrophysics missions Fermi Gamma-ray Space Telescope and Swift as well as the Science Support Center for Fermi. A number of key technologies for future missions are also under development in the Division, including X-ray mirrors, space-based interferometry, high contrast imaging techniques to search for exoplanets, and new detectors operating at gamma-ray, X-ray, ultraviolet, infrared, and radio wavelengths. The overriding goals of ASD are to carry out cutting-edge scientific research, provide Project Scientist support for spaceflight missions, implement the goals of the NASA Strategic Plan, serve and support the astronomical community, and enable future missions by conceiving new concepts and inventing new technologies.

  14. The Astrophysics Science Division Annual Report 2009

    Oegerle, William (Editor); Reddy, Francis (Editor); Tyler, Pat (Editor)

    2010-01-01

    The Astrophysics Science Division (ASD) at Goddard Space Flight Center (GSFC) is one of the largest and most diverse astrophysical organizations in the world, with activities spanning a broad range of topics in theory, observation, and mission and technology development. Scientific research is carried out over the entire electromagnetic spectrum - from gamma rays to radio wavelengths - as well as particle physics and gravitational radiation. Members of ASD also provide the scientific operations for three orbiting astrophysics missions - WMAP, RXTE, and Swift, as well as the Science Support Center for the Fermi Gamma-ray Space Telescope. A number of key technologies for future missions are also under development in the Division, including X-ray mirrors, space-based interferometry, high contrast imaging techniques to search for exoplanets, and new detectors operating at gamma-ray, X-ray, ultraviolet, infrared, and radio wavelengths. The overriding goals of ASD are to carry out cutting-edge scientific research, provide Project Scientist support for spaceflight missions, implement the goals of the NASA Strategic Plan, serve and support the astronomical community, and enable future missions by conceiving new concepts and inventing new technologies.

  15. Goddard's Astrophysics Science Division Annual Report 2011

    Centrella, Joan; Reddy, Francis; Tyler, Pat

    2012-01-01

    The Astrophysics Science Division(ASD) at Goddard Space Flight Center(GSFC)is one of the largest and most diverse astrophysical organizations in the world, with activities spanning a broad range of topics in theory, observation, and mission and technology development. Scientific research is carried out over the entire electromagnetic spectrum from gamma rays to radiowavelengths as well as particle physics and gravitational radiation. Members of ASD also provide the scientific operations for three orbiting astrophysics missions WMAP, RXTE, and Swift, as well as the Science Support Center for the Fermi Gamma-ray Space Telescope. A number of key technologies for future missions are also under development in the Division, including X-ray mirrors, space-based interferometry, high contract imaging techniques to serch for exoplanets, and new detectors operating at gamma-ray, X-ray, ultraviolet, infrared, and radio wavelengths. The overriding goals of ASD are to carry out cutting-edge scientific research, and provide Project Scientist support for spaceflight missions, implement the goals of the NASA Strategic Plan, serve and suppport the astronomical community, and enable future missions by conceiving new conepts and inventing new technologies.

  16. Nuclear Science Division 1994 annual report

    Myers, W.D.

    1995-06-01

    This report describes the activities of the Nuclear Science Division for the period of January 1, 1994, to December 31, 1994. This was a time of significant accomplishment for all of the programs in the Division. Assembly of the solar neutrino detector at the Sudbury Neutrino Observatory is well under way. All of the components fabricated by LBL were shipped to Sudbury early in the year and our efforts are now divided between assisting the assembly of the detector and preparing software for data analysis once the detector is operational in 1996. Much of the activity at the 88-Inch Cyclotron centered on Gammasphere. The open-quotes early implementationclose quotes phase of the detector ended in September. This phase was extremely successful, involving over 60 experiments with nearly 200 users from 37 institutions worldwide. The mechanical structure was installed and the final electronic system is expected to operate in March 1995. The Division concurrently hosted a conference on physics for large γ-ray detector arrays at the Clark Kerr Campus at UC Berkeley in August. This was a very successful meeting, reflecting the enthusiasm for this field worldwide. Also at the Cyclotron, the progress toward weak interaction experiments using ultra-thin sources passed a major milestone with the trapping of radioactive 21 Na atoms. We are now engaged in a major upgrade of the experimental area and the outlook is very promising for these novel experiments. Another highlight of research at the Cyclotron was the confirmation of element 106. This development allowed the original LLNL/LBL discovery team to move forward with their proposal to name this element seaborgium

  17. Nuclear Science Division 1994 annual report

    Myers, W.D. [ed.

    1995-06-01

    This report describes the activities of the Nuclear Science Division for the period of January 1, 1994, to December 31, 1994. This was a time of significant accomplishment for all of the programs in the Division. Assembly of the solar neutrino detector at the Sudbury Neutrino Observatory is well under way. All of the components fabricated by LBL were shipped to Sudbury early in the year and our efforts are now divided between assisting the assembly of the detector and preparing software for data analysis once the detector is operational in 1996. Much of the activity at the 88-Inch Cyclotron centered on Gammasphere. The {open_quotes}early implementation{close_quotes} phase of the detector ended in September. This phase was extremely successful, involving over 60 experiments with nearly 200 users from 37 institutions worldwide. The mechanical structure was installed and the final electronic system is expected to operate in March 1995. The Division concurrently hosted a conference on physics for large {gamma}-ray detector arrays at the Clark Kerr Campus at UC Berkeley in August. This was a very successful meeting, reflecting the enthusiasm for this field worldwide. Also at the Cyclotron, the progress toward weak interaction experiments using ultra-thin sources passed a major milestone with the trapping of radioactive {sup 21}Na atoms. We are now engaged in a major upgrade of the experimental area and the outlook is very promising for these novel experiments. Another highlight of research at the Cyclotron was the confirmation of element 106. This development allowed the original LLNL/LBL discovery team to move forward with their proposal to name this element seaborgium.

  18. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 31; Issue 3. Formation of InN nanoparticle and nanorod structures by nitrogen plasma annealing method ... Department of Physics, Indian Institute of Technology Delhi, New Delhi 110 016, India; Material Science Division, Indira Gandhi Centre for Atomic Research, ...

  19. Earth Sciences Division, collected abstracts-1977. [Research programs

    Quitiquit, W.A.; Ledbetter, G.P.; Henry, A.L.

    1978-05-24

    This report is a compilation of abstracts of papers, internal reports, and talks presented during 1977 at national and international meetings by members of the Earth Sciences Division, Lawrence Livermore Laboratory. It is arranged alphabetically by author and includes a cross-reference by subject indicating the areas of research interest of the Earth Sciences Division.

  20. Materials Science and Engineering |

    Engineering? What Is Materials Science and Engineering? MSE combines engineering, physics and chemistry to solve problems in nanotechnology, biotechnology, information technology, energy, manufacturing, and more ,' which could replace steel. Materials Science and Mechanical Engineering Professors work together to

  1. Atmospheric and Geophysical Sciences Division Program Report, 1988--1989

    1990-06-01

    In 1990, the Atmospheric and Geophysical Sciences Division begins its 17th year as a division. As the Division has grown over the years, its modeling capabilities have expanded to include a broad range of time and space scales ranging from hours to decades and from local to global. Our modeling is now reaching out from its atmospheric focus to treat linkages with the oceans and the land. In this report, we describe the Division's goal and organizational structure. We also provide tables and appendices describing the Division's budget, personnel, models, and publications. 2 figs., 1 tab.

  2. Resource Management in the Microgravity Science Division

    Casselle, Justine

    2004-01-01

    In the Microgravity Science Division, the primary responsibilities of the Business Management Office are resource management and data collection. Resource management involves working with a budget to do a number of specific projects, while data collection involves collecting information such as the status of projects and workforce hours. This summer in the Business Management Office I assisted Margie Allen with resource planning and the implementation of specific microgravity projects. One of the main duties of a Project Control Specialists, such as my mentor, is to monitor and analyze project manager s financial plans. Project managers work from the bottom up to determine how much money their project will cost. They then set up a twelve month operating plan which shows when money will be spent. I assisted my mentor in checking for variances in her data against those of the project managers. In order to successfully check for those variances, we had to understand: where the project is including plans vs. actual performance, why it is in its present condition, and what the future impact will be based on known budgetary parameters. Our objective was to make sure that the plan, or estimated resources input, are a valid reflection of the actual cost. To help with my understanding of the process, over the course of my tenure I had to obtain skills in Microsoft Excel and Microsoft Access.

  3. Materials and Molecular Research Division annual report, 1978

    1978-01-01

    Research is presented concerning materials science including metallurgy and ceramics; solid state physics; and materials chemistry; chemical sciences covering radiation science, chemical physics, and chemical energy; nuclear science; coal research; solar energy; magnetic fusion, conservation; and environmental research. (FS)

  4. Environmental Sciences Division Groundwater Program Office

    1993-01-01

    This first edition of the Martin Marietta Energy Systems, Inc., (Energy Systems) Groundwater Program Annual Report summarizes the work carried out by the Energy Systems GWPO for fiscal year (FY) 1993. This introductory section describes the GWPO's staffing, organization, and funding sources. The GWPO is responsible for coordination and oversight for all components of the groundwater program at the three Oak Ridge facilities [ORNL, the Oak Ridge Y-12 Plant, and the Oak Ridge K-25 Site], and the PGDP and PORTS, respectively. Several years ago, Energy systems senior management recognized that the manner in which groundwater activities were conducted at the five facilities could result in unnecessary duplication of effort, inadequate technical input to decisions related to groundwater issues, and could create a perception within the regulatory agencies of a confusing and inconsistent approach to groundwater issues at the different facilities. Extensive interactions among management from Environmental Compliance, Environmental Restoration (ER), Environmental Sciences Division, Environmental Safety and Health, and the five facilities ultimately led to development of a net technical umbrella organization for groundwater. On April 25, 1991, the GWPO was authorized to be set up within ORNL thereby establishing a central coordinating office that would develop a consistent technical and administrative direction for the groundwater programs of all facilities and result in compliance with all relevant U.S. Environmental Protection Agency (EPA) regulations such as RCRA and Comprehensive Environmental Restoration, Compensation and Liability Act (CERCLA) as well as U.S. Department of Energy (DOE) regulations and orders. For example, DOE Order 5400.1, issued on November 9, 1988, called for each DOE facility to develop an environmental monitoring program for all media (e.g., air, surface water, and groundwater)

  5. Chemical Sciences Division annual report 1994

    NONE

    1995-06-01

    The division is one of ten LBL research divisions. It is composed of individual research groups organized into 5 scientific areas: chemical physics, inorganic/organometallic chemistry, actinide chemistry, atomic physics, and chemical engineering. Studies include structure and reactivity of critical reaction intermediates, transients and dynamics of elementary chemical reactions, and heterogeneous and homogeneous catalysis. Work for others included studies of superconducting properties of high-{Tc} oxides. In FY 1994, the division neared completion of two end-stations and a beamline for the Advanced Light Source, which will be used for combustion and other studies. This document presents summaries of the studies.

  6. Nuclear Science Division, 1995--1996 annual report

    Poskanzer, A.M.

    1997-02-01

    This report describes the activities of the Nuclear Science Division (NSD) for the two-year period, January 1, 1995 to January 1, 1997. This was a time of major accomplishments for all research programs in the Division-many of which are highlighted in the reports of this document

  7. Nuclear Science Division, 1995--1996 annual report

    Poskanzer, A.M. [ed.

    1997-02-01

    This report describes the activities of the Nuclear Science Division (NSD) for the two-year period, January 1, 1995 to January 1, 1997. This was a time of major accomplishments for all research programs in the Division-many of which are highlighted in the reports of this document.

  8. Materials Sciences programs, Fiscal Year 1983

    1983-09-01

    The Materials Sciences Division constitutes one portion of a wide range of research supported by the DOE Office of Basic Energy Sciences. This report contains a listing of research underway in FY 1983 together with a convenient index to the program

  9. Materials sciences programs, Fiscal year 1997

    NONE

    1998-10-01

    The Division of Materials Sciences is responsible for basic research and research facilities in materials science topics important to the mission of the Department of Energy. The programmatic divisions under the Office of Basic Energy Sciences are Chemical Sciences, Engineering and Geosciences, and Energy Biosciences. Materials Science is an enabling technology. The performance parameters, economics, environmental acceptability and safety of all energy generation, conversion, transmission and conservation technologies are limited by the properties and behavior of materials. The Materials Sciences programs develop scientific understanding of the synergistic relationship among synthesis, processing, structure, properties, behavior, performance and other characteristics of materials. Emphasis is placed on the development of the capability to discover technologically, economically, and environmentally desirable new materials and processes, and the instruments and national user facilities necessary for achieving such progress. Materials Sciences subfields include: physical metallurgy, ceramics, polymers, solid state and condensed matter physics, materials chemistry, surface science and related disciplines where the emphasis is on the science of materials. This report includes program descriptions for 517 research programs including 255 at 14 DOE National Laboratories, 262 research grants (233 of which are at universities), and 29 Small Business Innovation Research Grants. Five cross-cutting indices located at the rear of this book identify all 517 programs according to principal investigator(s), materials, techniques, phenomena, and environment.

  10. Earth Sciences Division annual report 1981. [Lead abstract

    1982-09-01

    Separate abstracts were prepared for the 59 papers of the 1981 annual report of the Earth Sciences Division at Lawrence Berkeley Laboratory. The general topics covered included nuclear waste isolation, geophysics and reservoir engineering, and geosciences. (KRM)

  11. Fuels and Materials Division biennial report, fiscal years 1979 and 1980

    Brown, H.L.

    1980-10-01

    The Fuels and Materials Division of EG and G Idaho, Inc., reports its technical activities for the fiscal years 1979 to 1980. This Division supports technical programs at the Idaho National Engineering Laboratory with materials science, materials engineering, nondestructive evaluation engineering, and remote handling of radioactive and other hazardous materials and conducts several direct-funded materials-related programs for the US Department of Energy. This report details programmatic and other support activities, direct-funded programs, organization and facility status, and EG and G Idaho-funded technical development programs

  12. Atmospheric and Geophysical Sciences Division: Program report, FY 1987

    1988-05-01

    In 1988 the Atmospheric and Geophysical Sciences Division began its 15th year as a division. As the Division has grown over the years, its modeling capabilities have expanded to include a broad range of time and space scales ranging from hours to years, and from kilometers to global, respectively. For this report, we have chosen to show a subset of results from several projects to illustrate the breadth, depth, and diversity of the modeling activities that are a major part of the Division's research, development, and application efforts. In addition, the recent reorganization of the Division, including the merger of another group with the Division, is described, and the budget, personnel, models, and publications are reviewed. 95 refs., 26 figs., 2 tabs

  13. Nutritional Science Staff | Division of Cancer Prevention

    The Division of Cancer Prevention (DCP) conducts and supports research to determine a person's risk of cancer and to find ways to reduce the risk. This knowledge is critical to making progress against cancer because risk varies over the lifespan as genetic and epigenetic changes can transform healthy tissue into invasive cancer.

  14. Materials science symposium 'materials science using accelerators'

    Ishii, Tetsuro; Asai, Masato; Chimi, Yasuhiro

    2005-07-01

    The facility of the JAERI-Tokai tandem accelerator and its booster has been contributing to advancing heavy-ion sciences in the fields of nuclear physics, nuclear chemistry, atomic and solid-state physics and materials science, taking advantage of its prominent performance of heavy-ion acceleration. This facility was recently upgraded by changing the acceleration tubes and installing an ECR ion-source at the terminal. The radioactive nuclear beam facility (Tokai Radioactive Ion Accelerator Complex, TRIAC) was also installed by the JAERI-KEK joint project. On this occasion, this meeting was held in order to provide a new step for the advancement of heavy-ion science, and to exchange information on recent activities and future plans using the tandem facility as well as on promising new experimental techniques. This meeting was held at Tokai site of JAERI on January 6th and 7th in 2005, having 24 oral presentations, and was successfully carried out with as many as 90 participants and lively discussions among scientists from all the fields of heavy-ion science, including solid-sate physics, nuclear physics and chemistry, and accelerator physics. This summary is the proceedings of this meeting. We would like to thank all the staffs of the accelerators section, participants and office workers in the Department of Materials Science for their support. The 24 of the presented papers are indexed individually. (J.P.N.)

  15. Earth Sciences Division Research Summaries 2002-2003

    Bodvarsson, G.S.

    2003-11-01

    Research in earth and atmospheric sciences is becoming increasingly important in light of the energy, climate change, and environmental issues facing the United States and the world. The development of new energy resources other than hydrocarbons and the safe disposal of nuclear waste and greenhouse gases (such as carbon dioxide and methane) are critical to the future energy needs and environmental safety of this planet. In addition, the cleanup of many contaminated sites in the U.S., along with the preservation and management of our water supply, remain key challenges for us as well as future generations. Addressing these energy, climate change, and environmental issues requires the timely integration of earth sciences' disciplines (such as geology, hydrology, oceanography, climatology, geophysics, geochemistry, geomechanics, ecology, and environmental sciences). This integration will involve focusing on fundamental crosscutting concerns that are common to many of these issues. A primary focus will be the characterization, imaging, and manipulation of fluids in the earth. Such capabilities are critical to many DOE applications, from environmental restoration to energy extraction and optimization. The Earth Sciences Division (ESD) of the Ernest Orlando Lawrence Berkeley National Laboratory (Berkeley Lab) is currently addressing many of the key technical issues described above. In this document, we present summaries of many of our current research projects. While it is not a complete accounting, it is representative of the nature and breadth of our research effort. We are proud of our scientific efforts, and we hope that you will find our research useful and exciting. Any comments on our research are appreciated and can be sent to me personally. This report is divided into five sections that correspond to the major research programs in the Earth Sciences Division: (1) Fundamental and Exploratory Research; (2) Nuclear Waste; (3) Energy Resources; (4

  16. Earth Sciences Division Research Summaries 2002-2003

    Bodvarsson, G.S.

    2003-01-01

    Research in earth and atmospheric sciences is becoming increasingly important in light of the energy, climate change, and environmental issues facing the United States and the world. The development of new energy resources other than hydrocarbons and the safe disposal of nuclear waste and greenhouse gases (such as carbon dioxide and methane) are critical to the future energy needs and environmental safety of this planet. In addition, the cleanup of many contaminated sites in the U.S., along with the preservation and management of our water supply, remain key challenges for us as well as future generations. Addressing these energy, climate change, and environmental issues requires the timely integration of earth sciences' disciplines (such as geology, hydrology, oceanography, climatology, geophysics, geochemistry, geomechanics, ecology, and environmental sciences). This integration will involve focusing on fundamental crosscutting concerns that are common to many of these issues. A primary focus will be the characterization, imaging, and manipulation of fluids in the earth. Such capabilities are critical to many DOE applications, from environmental restoration to energy extraction and optimization. The Earth Sciences Division (ESD) of the Ernest Orlando Lawrence Berkeley National Laboratory (Berkeley Lab) is currently addressing many of the key technical issues described above. In this document, we present summaries of many of our current research projects. While it is not a complete accounting, it is representative of the nature and breadth of our research effort. We are proud of our scientific efforts, and we hope that you will find our research useful and exciting. Any comments on our research are appreciated and can be sent to me personally. This report is divided into five sections that correspond to the major research programs in the Earth Sciences Division: (1) Fundamental and Exploratory Research; (2) Nuclear Waste; (3) Energy Resources; (4) Environmental

  17. Chemical and Analytical Sciences Division progress report for the period January 1, 1993--December 31, 1994

    Poutsma, M.L.

    1995-06-01

    This report provides brief summaries of progress in the Chemical and Analytical Sciences Division (CASD) during 1993 and 1994. The first four chapters, which cover the research mission, are organized to mirror the major organizational units of the division and indicate the scope of the research portfolio. These divisions are the Analytical Spectroscopy Section, Nuclear and Radiochemistry Section, Organic Chemistry Section, and Physical and Materials Chemistry Section. The fifth and sixth chapters summarize the support activities within CASD that are critical for research progress. Finally, the appendices indicate the productivity and recognition of the staff in terms of various forms of external publications, professional activities, and awards.

  18. Materials Sciences Programs

    1977-01-01

    A compilation and index of the ERDA materials sciences program is presented. This compilation is intended for use by administrators, managers, and scientists to help coordinate research and as an aid in selecting new programs

  19. Materials Science Laboratory

    Jackson, Dionne

    2005-01-01

    The NASA Materials Science Laboratory (MSL) provides science and engineering services to NASA and Contractor customers at KSC, including those working for the Space Shuttle. International Space Station. and Launch Services Programs. These services include: (1) Independent/unbiased failure analysis (2) Support to Accident/Mishap Investigation Boards (3) Materials testing and evaluation (4) Materials and Processes (M&P) engineering consultation (5) Metrology (6) Chemical analysis (including ID of unknown materials) (7) Mechanical design and fabrication We provide unique solutions to unusual and urgent problems associated with aerospace flight hardware, ground support equipment and related facilities.

  20. Bulletin of Materials Science | Indian Academy of Sciences

    Author Affiliations. K L Sahoo1 Rina Sahu1 M Ghosh1 S Chatterjee2. Metal Extraction and Forming Division, National Metallurgical Laboratory, Jamshedpur 831 007, India; Department of Metallurgical and Materials Engineering, Bengal Engineering and Science University, Howrah 711 103, India ...

  1. Electronic Materials Science

    Irene, Eugene A.

    2005-02-01

    A thorough introduction to fundamental principles and applications From its beginnings in metallurgy and ceramics, materials science now encompasses such high- tech fields as microelectronics, polymers, biomaterials, and nanotechnology. Electronic Materials Science presents the fundamentals of the subject in a detailed fashion for a multidisciplinary audience. Offering a higher-level treatment than an undergraduate textbook provides, this text benefits students and practitioners not only in electronics and optical materials science, but also in additional cutting-edge fields like polymers and biomaterials. Readers with a basic understanding of physical chemistry or physics will appreciate the text's sophisticated presentation of today's materials science. Instructive derivations of important formulae, usually omitted in an introductory text, are included here. This feature offers a useful glimpse into the foundations of how the discipline understands such topics as defects, phase equilibria, and mechanical properties. Additionally, concepts such as reciprocal space, electron energy band theory, and thermodynamics enter the discussion earlier and in a more robust fashion than in other texts. Electronic Materials Science also features: An orientation towards industry and academia drawn from the author's experience in both arenas Information on applications in semiconductors, optoelectronics, photocells, and nanoelectronics Problem sets and important references throughout Flexibility for various pedagogical needs Treating the subject with more depth than any other introductory text, Electronic Materials Science prepares graduate and upper-level undergraduate students for advanced topics in the discipline and gives scientists in associated disciplines a clear review of the field and its leading technologies.

  2. Materials Sciences programs, Fiscal year 1993

    NONE

    1994-02-01

    This report provides a compilation and index of the DOE Materials Sciences Division programs; the compilation is to assist administrators, managers, and scientists to help coordinate research. The report is divided into 7 sections: laboratory projects, contract research projects, small business innovation research, major user facilities, other user facilities, funding level distributions, and indexes.

  3. Materials science and engineering

    Lesuer, D.R.

    1997-02-01

    During FY-96, work within the Materials Science and Engineering Thrust Area was focused on material modeling. Our motivation for this work is to develop the capability to study the structural response of materials as well as material processing. These capabilities have been applied to a broad range of problems, in support of many programs at Lawrence Livermore National Laboratory. These studies are described in (1) Strength and Fracture Toughness of Material Interfaces; (2) Damage Evolution in Fiber Composite Materials; (3) Flashlamp Envelope Optical Properties and Failure Analysis; (4) Synthesis and Processing of Nanocrystalline Hydroxyapatite; and (5) Room Temperature Creep Compliance of Bulk Kel-E.

  4. Earth Sciences Division. Annual report 1979

    1980-07-01

    This annual report contains articles describing the research programs conducted during the year. Major areas of interest include geothermal exploration technology, geothermal energy conversion technology, reservoir engineering, geothermal environmental research, basic geosciences studies, applied geosciences studies, nuclear waste isolation, and marine sciences

  5. Earth Sciences Division. Annual report 1979

    1980-07-01

    This annual report contains articles describing the research programs conducted during the year. Major areas of interest include geothermal exploration technology, geothermal energy conversion technology, reservoir engineering, geothermal environmental research, basic geosciences studies, applied geosciences studies, nuclear waste isolation, and marine sciences. (ACR)

  6. Materials sciences programs: Fiscal year 1994

    1995-04-01

    The Division of Materials Sciences is located within the DOE in the Office of Basic Energy Sciences. The Division of Materials Sciences is responsible for basic research and research facilities in strategic materials science topics of critical importance to the mission of the Department and its Strategic Plan. Materials Science is an enabling technology. The performance parameters, economics, environmental acceptability and safety of all energy generation, conversion, transmission and conservation technologies are limited by the properties and behavior of materials. The Materials Sciences programs develop scientific understanding of the synergistic relationship amongst the synthesis, processing, structure, properties, behavior, performance and other characteristics of materials. Emphasis is placed on the development of the capability to discover technologically, economically, and environmentally desirable new materials and processes, and the instruments and national user facilities necessary for achieving such progress. Materials Sciences sub-fields include physical metallurgy, ceramics, polymers, solid state and condensed matter physics, materials chemistry, surface science and related disciplines where the emphasis is on the science of materials. This report includes program descriptions for 458 research programs including 216 at 14 DOE National Laboratories, 242 research grants (233 for universities), and 9 Small Business Innovation Research (SBIR) Grants. The report is divided into eight sections. Section A contains all Laboratory projects, Section B has all contract research projects, Section C has projects funded under the SBIR Program, Section D describes the Center of Excellence for the Synthesis and Processing of Advanced Materials and E has information on major user facilities. F contains descriptions of other user facilities; G, a summary of funding levels; and H, indices characterizing research projects.

  7. Materials sciences programs, fiscal year 1994

    1995-04-01

    The Division of Materials Sciences is located within the DOE in the Office of Basic Energy Sciences. The Division of Materials Sciences is responsible for basic research and research facilities in strategic materials science topics of critical importance to the mission of the Department and its Strategic Plan. Materials Science is an enabling technology. The performance parameters, economics, environmental acceptability and safety of all energy generation, conversion, transmission and conservation technologies are limited by the properties and behavior of materials. The Materials Sciences programs develop scientific understanding of the synergistic relationship amongst the synthesis, processing, structure, properties, behavior, performance and other characteristics of materials. Emphasis is placed on the development of the capability to discover technologically, economically, and environmentally desirable new materials and processes, and the instruments and national user facilities necessary for achieving such progress. Materials Sciences sub-fields include physical metallurgy, ceramics, polymers, solid state and condensed matter physics, materials chemistry, surface science and related disciplines where the emphasis is on the science of materials. This report includes program descriptions for 458 research programs including 216 at 14 DOE National Laboratories, 242 research grants (233 for universities), and 9 Small Business Innovation Research (SBIR) Grants. The report is divided into eight sections. Section A contains all Laboratory projects, Section B has all contract research projects, Section C has projects funded under the SBIR Program, Section D describes the Center of Excellence for the Synthesis and Processing of Advanced Materials and E has information on major user facilities. F contains descriptions of other user facilities; G, a summary of funding levels; and H, indices characterizing research projects

  8. Materials sciences programs, fiscal year 1994

    NONE

    1995-04-01

    The Division of Materials Sciences is located within the DOE in the Office of Basic Energy Sciences. The Division of Materials Sciences is responsible for basic research and research facilities in strategic materials science topics of critical importance to the mission of the Department and its Strategic Plan. Materials Science is an enabling technology. The performance parameters, economics, environmental acceptability and safety of all energy generation, conversion, transmission and conservation technologies are limited by the properties and behavior of materials. The Materials Sciences programs develop scientific understanding of the synergistic relationship amongst the synthesis, processing, structure, properties, behavior, performance and other characteristics of materials. Emphasis is placed on the development of the capability to discover technologically, economically, and environmentally desirable new materials and processes, and the instruments and national user facilities necessary for achieving such progress. Materials Sciences sub-fields include physical metallurgy, ceramics, polymers, solid state and condensed matter physics, materials chemistry, surface science and related disciplines where the emphasis is on the science of materials. This report includes program descriptions for 458 research programs including 216 at 14 DOE National Laboratories, 242 research grants (233 for universities), and 9 Small Business Innovation Research (SBIR) Grants. The report is divided into eight sections. Section A contains all Laboratory projects, Section B has all contract research projects, Section C has projects funded under the SBIR Program, Section D describes the Center of Excellence for the Synthesis and Processing of Advanced Materials and E has information on major user facilities. F contains descriptions of other user facilities; G, a summary of funding levels; and H, indices characterizing research projects.

  9. Earth Sciences Division Research Summaries 2006-2007

    DePaolo, Donald; DePaolo, Donald

    2008-01-01

    , climate systems, and environmental engineering. Building on this scientific foundation, we also perform applied earth science research and technology development to support DOE in a number of its program areas. We currently organize our efforts in the following Division Programs: Fundamental and Exploratory Research--fundamental research in geochemistry, geophysics, and hydrology to provide a basis for new and improved energy and environmental technologies; Climate and Carbon Sciences--carbon cycling in the terrestrial biosphere and oceans, and global and regional climate modeling, are the cornerstones of a major developing divisional research thrust related to understanding and mitigating the effects of increased greenhouse gas concentrations in the atmosphere; Energy Resources--collaborative projects with industry to develop or improve technologies for the exploration and production of oil, gas, and geothermal reservoirs, and for the development of bioenergy; Environmental Remediation and Water Resources--innovative technologies for locating, containing, and remediating metals, radionuclides, chlorinated solvents, and energy-related contaminants in soils and groundwaters; Geologic Carbon Sequestration--development and testing of methods for introducing carbon dioxide to subsurface geologic reservoirs, and predicting and monitoring its subsequent migration; and Nuclear Waste and Energy--theoretical, experimental, and simulation studies of the unsaturated zone at Yucca Mountain, Nevada. These programs draw from each of ESD's disciplinary departments: Climate Science, Ecology, Geochemistry, Geophysics, and Hydrogeology. Short descriptions of these departments are provided as introductory material. In this document, we present summaries of selected current research projects. While it is not a complete accounting, the projects described here are representative of the nature and breadth of the ESD research effort. We are proud of our scientific accomplishments and we hope

  10. Earth Sciences Division Research Summaries 2006-2007

    DePaolo, Donald; DePaolo, Donald

    2008-07-21

    , climate systems, and environmental engineering. Building on this scientific foundation, we also perform applied earth science research and technology development to support DOE in a number of its program areas. We currently organize our efforts in the following Division Programs: Fundamental and Exploratory Research--fundamental research in geochemistry, geophysics, and hydrology to provide a basis for new and improved energy and environmental technologies; Climate and Carbon Sciences--carbon cycling in the terrestrial biosphere and oceans, and global and regional climate modeling, are the cornerstones of a major developing divisional research thrust related to understanding and mitigating the effects of increased greenhouse gas concentrations in the atmosphere; Energy Resources--collaborative projects with industry to develop or improve technologies for the exploration and production of oil, gas, and geothermal reservoirs, and for the development of bioenergy; Environmental Remediation and Water Resources--innovative technologies for locating, containing, and remediating metals, radionuclides, chlorinated solvents, and energy-related contaminants in soils and groundwaters; Geologic Carbon Sequestration--development and testing of methods for introducing carbon dioxide to subsurface geologic reservoirs, and predicting and monitoring its subsequent migration; and Nuclear Waste and Energy--theoretical, experimental, and simulation studies of the unsaturated zone at Yucca Mountain, Nevada. These programs draw from each of ESD's disciplinary departments: Climate Science, Ecology, Geochemistry, Geophysics, and Hydrogeology. Short descriptions of these departments are provided as introductory material. In this document, we present summaries of selected current research projects. While it is not a complete accounting, the projects described here are representative of the nature and breadth of the ESD research effort. We are proud of our scientific accomplishments and we

  11. Materials science and architecture

    Bechthold, Martin; Weaver, James C.

    2017-12-01

    Materiality — the use of various materials in architecture — has been fundamental to the design and construction of buildings, and materials science has traditionally responded to needs formulated by design, engineering and construction professionals. Material properties and processes are shaping buildings and influencing how they perform. The advent of technologies such as digital fabrication, robotics and 3D printing have not only accelerated the development of new construction solutions, but have also led to a renewed interest in materials as a catalyst for novel architectural design. In parallel, materials science has transformed from a field that explains materials to one that designs materials from the bottom up. The conflation of these two trends is giving rise to materials-based design research in which architects, engineers and materials scientists work as partners in the conception of new materials systems and their applications. This Review surveys this development for different material classes (wood, ceramics, metals, concrete, glass, synthetic composites and polymers), with an emphasis on recent trends and innovations.

  12. Cognitive and Neural Sciences Division 1991 Programs

    1991-08-01

    interventions , for performance aiding, for certification and for performance evaluation. As the Navy modernizes those systems to take advantage of potential...2223-2237. Livingstone, M., Drislane, F. and Galaburda, A. (1991, in press) Physiological evidence for a magnocellular defect in dyslexia . Science. 201...develop training interventions to counter the effects of stress on performance. Progress: This grant is new in FY91. Outside Funding: Funds for this

  13. Progress report, Health Sciences Division, 1 October - 31 December, 1981

    1982-03-01

    The work of the Health Sciences Division during the quarter included development of improved radiation counters and dosimeters, studies of radionuclide migration through the environment, investigations of the effects of radiation upon a variety of living organisms, and calculation of improved dosimetry factors

  14. Environmental and Medical Sciences Division progress report January - December 1975

    Johnston, J.E.

    1976-07-01

    The activities of the AERE Environmental and Medical Sciences Division for January to December 1975 are reported under sections entitled: introduction; inhalation toxicology and radionuclide analysis; whole body counting; radiation physics; environmental analysis, atmospheric pollution; medical; chemical analysis group; publications. (U.K.)

  15. Geosciences program annual report 1978. [LBL Earth Sciences Division

    Witherspoon, P.A.

    1978-01-01

    This report is a reprint of the Geosciences section of the LBL Earth Sciences Division Annual Report 1978 (LBL-8648). It contains summary papers that describe fundamental studies addressing a variety of earth science problems of interest to the DOE. They have applications in such diverse areas as geothermal energy, oil recovery, in situ coal gasification, uranium resource evaluation and recovery, and earthquake prediction. Completed work has been reported or likely will be in the usual channels. (RWR)

  16. Materials and Molecular Research Division annual report 1980

    1981-06-01

    Progress made in the following research areas is reported: materials sciences (metallurgy and ceramics, solid state physics, materials chemistry); chemical sciences (fundamental interactions, processes and techniques); nuclear sciences; fossil energy; advanced isotope separation technology; energy storage; magnetic fusion energy; and nuclear waste management

  17. Materials and Molecular Research Division annual report 1980

    1981-06-01

    Progress made in the following research areas is reported: materials sciences (metallurgy and ceramics, solid state physics, materials chemistry); chemical sciences (fundamental interactions, processes and techniques); nuclear sciences; fossil energy; advanced isotope separation technology; energy storage; magnetic fusion energy; and nuclear waste management.

  18. Progress report, Chemistry and Materials Division

    1981-05-01

    Laser radiation has been used to anneal damage created by implantation of arsenic ions into silicon single-crystal wafers. The threshold for recovery of lattice order, as measured by ion channeling methods, appeared at an energy density of 1.2 J.cm -2 . Deuterium-enriched water has been recovered for the first time in visible amounts from a process based on laser photolysis. High performance liquid chromatography has been applied to the determination of U(VI) in ground water and urine. Results with low ground water concentrations were judged to be successful, while only limited success was achieved with urine. The first analyses in support of the production of (Th,Pu)O 2 fuel elements were completed successfully. Experiments performed during the quarter have shown that cracking of Zr-2.5 percent Nb alloy by gaseous hydrogen is inhibited by traces of oxygen. It was found that there was no inhibition by helium in the absence of trace oxygen. Excellent agreement has been obtained between the growth and creep constants derived from ion-irradiated cantilever beam specimens and those from reactor irradiation of the same materials. (O.T.)

  19. Environmental Sciences Division annual progress report for period ending September 30, 1982. Environmental Sciences Division Publication No. 2090

    1983-04-01

    Separate abstracts were prepared for 12 of the 14 sections of the Environmental Sciences Division annual progress report. The other 2 sections deal with educational activities. The programs discussed deal with advanced fuel energy, toxic substances, environmental impacts of various energy technologies, biomass, low-level radioactive waste management, the global carbon cycle, and aquatic and terrestrial ecology

  20. Environmental Sciences Division annual progress report for period ending September 30, 1982. Environmental Sciences Division Publication No. 2090. [Lead abstract

    1983-04-01

    Separate abstracts were prepared for 12 of the 14 sections of the Environmental Sciences Division annual progress report. The other 2 sections deal with educational activities. The programs discussed deal with advanced fuel energy, toxic substances, environmental impacts of various energy technologies, biomass, low-level radioactive waste management, the global carbon cycle, and aquatic and terrestrial ecology. (KRM)

  1. Materials and Molecular Research Division annual report 1983

    Searcy, A.W.; Muller, R.H.; Peterson, C.V.

    1984-07-01

    Progress is reported in the following fields: materials sciences (metallurgy and ceramics, solid-state physics, materials chemistry), chemical sciences (fundamental interactions, processes and techniques), actinide chemistry, fossil energy, electrochemical energy storage systems, superconducting magnets, semiconductor materials and devices, and work for others. (DLC)

  2. Materials and Molecular Research Division annual report 1983

    Searcy, A.W.; Muller, R.H.; Peterson, C.V.

    1984-07-01

    Progress is reported in the following fields: materials sciences (metallurgy and ceramics, solid-state physics, materials chemistry), chemical sciences (fundamental interactions, processes and techniques), actinide chemistry, fossil energy, electrochemical energy storage systems, superconducting magnets, semiconductor materials and devices, and work for others

  3. Chemical Sciences Division annual report, 1990

    1991-08-01

    This report contains sections on the following topics: photochemistry of materials in the stratosphere, energy transfer and structural studies of molecules on surfaces, crossed molecular beams, molecular interactions, theory of atomic and molecular collision processes, selective photochemistry, photodissociation of free radicals, physical chemistry with emphasis on thermodynamic properties, chemical physics at the high photon energies, high-energy atomic physics, atomic physics, high-energy oxidizers and delocalized-electron solids, catalytic hydrogenation of CO, transition metal-catalyzed conversion of CO, NO, H 2 , and organic molecules to fuels and petrochemicals, formation of oxyacids of sulfur from SO 2 , potentially catalytic and conducting polyorganometallics, actinide chemistry, and molecular thermodynamics for phase equilibria in mixtures

  4. Chemical and Laser Sciences Division: Annual report, 1987

    1988-01-01

    As the Chemical and Laser Sciences Division concludes its first year, the Division personnel can be proud of their many scientific and technical accomplishments. Among the important milestones which the Division achieved were significant demonstrations of the process performance in the Special Isotope Separation program, of beam sensing techniques for the NPB program, and of optical angular multiplexing and energy extraction from the ICF KrF laser. In addition, the Los Alamos FTS was brought to operational status and the Bright Source attained intensities on the order of 10 17 W/cm 2 . A few highlights of these and other research and development activities are presented in the following sections of this report

  5. Interfacial and Surface Science | Materials Science | NREL

    Science group within the Material Science Center. He oversees research studies of surfaces and interfaces Interfacial and Surface Science Interfacial and Surface Science Image of irregular-outlined, light address a broad range of fundamental and applied issues in surface and interfacial science that are

  6. Lasers in materials science

    Ossi, Paolo; Zhigilei, Leonid

    2014-01-01

    This book covers various aspects of lasers in materials science, including a comprehensive overview on basic principles of laser-materials interactions and applications enabled by pulsed laser systems.  The material is organized in a coherent way, providing the reader with a harmonic architecture. While systematically covering the major current and emerging areas of lasers processing applications, the Volume provides examples of targeted modification of material properties achieved through careful control of the processing conditions and laser irradiation parameters. Special emphasis is placed on specific strategies aimed at nanoscale control of material structure and properties to match the stringent requirements of modern applications.  Laser fabrication of novel nanomaterials, which expands to the domains of photonics, photovoltaics, sensing, and biomedical applications, is also discussed in the Volume. This book assembles chapters based on lectures delivered at the Venice International School on Lasers...

  7. FWP executive summaries: basic energy sciences materials sciences and engineering program (SNL/NM).

    Samara, George A.; Simmons, Jerry A.

    2006-07-01

    This report presents an Executive Summary of the various elements of the Materials Sciences and Engineering Program which is funded by the Division of Materials Sciences and Engineering, Office of Basic Energy Sciences, U.S. Department of Energy at Sandia National Laboratories, New Mexico. A general programmatic overview is also presented.

  8. Environmental Sciences Division: Summaries of research in FY 1996

    NONE

    1997-06-01

    This document describes the Fiscal Year 1996 activities and products of the Environmental Sciences Division, Office of Biological and Environmental Research, Office of Energy Research. The report is organized into four main sections. The introduction identifies the basic program structure, describes the programs of the Environmental Sciences Division, and provides the level of effort for each program area. The research areas and project descriptions section gives program contact information, and provides descriptions of individual research projects including: three-year funding history, research objective and approach used in each project, and results to date. Appendixes provide postal and e-mail addresses for principal investigators and define acronyms used in the text. The indexes provide indexes of principal investigators, research institutions, and keywords for easy reference. Research projects are related to climatic change and remedial action.

  9. Life Sciences Division and Center for Human Genome Studies 1994

    Cram, L.S.; Stafford, C. [comp.

    1995-09-01

    This report summarizes the research and development activities of the Los Alamos National Laboratory`s Life Sciences Division and the biological aspects of the Center for Human Genome Studies for the calendar year 1994. The technical portion of the report is divided into two parts, (1) selected research highlights and (2) research projects and accomplishments. The research highlights provide a more detailed description of a select set of projects. A technical description of all projects is presented in sufficient detail so that the informed reader will be able to assess the scope and significance of each project. Summaries useful to the casual reader desiring general information have been prepared by the group leaders and appear in each group overview. Investigators on the staff of the Life Sciences Division will be pleased to provide further information.

  10. Atmospheric sciences division. Annual report, fiscal year 1981

    Raynor, G.S.

    1981-12-01

    The research activities of the Atmospheric Sciences Division of the Department of Energy and Environment for FY 1981 are presented. Facilities and major items of equipment are described. Research programs are summarized in three categories, modeling, field and laboratory experiments and data management and analysis. Each program is also described individually with title, principal investigator, sponsor and funding levels for FY 1981 and FY 1982. Future plans are summarized. Publications for FY 1981 are listed with abstracts. A list of personnel is included

  11. Progress report - Health Sciences Division - 1985 July 01 -December 31

    1986-02-01

    This progress report contains a topical summary of major research in the Health Sciences Division. Separate reports are included for each of the following branches: Dosimetric Research, Environmental Research, Radiation Biology, and Medical. Some of the aspects discussed include measurement and application of environmental isotopes, dosimetry and employee monitoring, environmental processes of radioisotope transport, the effects of ionizing radiation on living cells (cancer, hyperthermia, DNA, etc.), and statistics of hospital procedures

  12. Materials and Molecular Research Division. Annual report 1981

    1982-08-01

    Progress is reported in the areas of materials sciences, chemical sciences, nuclear sciences, fossil energy, advanced (laser) isotope separation technology, energy storage, superconducting magnets, and nuclear waste management. Work for others included phase equilibria for coal gasification products and β-alumina electrolytes for storage batteries

  13. Materials and Molecular Research Division annual report 1982

    1983-05-01

    This report is divided into: materials sciences, chemical sciences, nuclear sciences, fossil energy, advanced isotope separation technology (AISI), energy storage, magnetic fusion energy (MFE), nuclear waste management, and work for others (WFO). Separate abstracts have been prepared for all except AIST, MFE, and WFO

  14. Materials and Molecular Research Division annual report 1982

    1983-05-01

    This report is divided into: materials sciences, chemical sciences, nuclear sciences, fossil energy, advanced isotope separation technology (AISI), energy storage, magnetic fusion energy (MFE), nuclear waste management, and work for others (WFO). Separate abstracts have been prepared for all except AIST, MFE, and WFO. (DLC)

  15. Materials and Molecular Research Division. Annual report 1981

    1982-08-01

    Progress is reported in the areas of materials sciences, chemical sciences, nuclear sciences, fossil energy, advanced (laser) isotope separation technology, energy storage, superconducting magnets, and nuclear waste management. Work for others included phase equilibria for coal gasification products and ..beta..-alumina electrolytes for storage batteries. (DLC)

  16. Materials and Components Technology Division research summary, 1991

    1991-04-01

    This division has the purpose of providing a R and D capability for design, fabrication, and testing of high-reliability materials, components, and instrumentation. Current divisional programs are in support of the Integral Fast Reactor, life extension for light water reactors, fuels development for the new production reactor and research and test reactors, fusion reactor first-wall and blanket technology, safe shipment of hazardous materials, fluid mechanics/materials/instrumentation for fossile energy systems, and energy conservation and renewables (including tribology, high- temperature superconductivity). Separate abstracts have been prepared for the data base

  17. Materials and Components Technology Division research summary, 1991

    1991-04-01

    This division has the purpose of providing a R and D capability for design, fabrication, and testing of high-reliability materials, components, and instrumentation. Current divisional programs are in support of the Integral Fast Reactor, life extension for light water reactors, fuels development for the new production reactor and research and test reactors, fusion reactor first-wall and blanket technology, safe shipment of hazardous materials, fluid mechanics/materials/instrumentation for fossile energy systems, and energy conservation and renewables (including tribology, high- temperature superconductivity). Separate abstracts have been prepared for the data base.

  18. Chemistry {ampersand} Materials Science progress report summary of selected research and development topics, FY97

    Newkirk, L.

    1997-12-01

    This report contains summaries of research performed in the Chemistry and Materials Science division. Topics include Metals and Ceramics, High Explosives, Organic Synthesis, Instrument Development, and other topics.

  19. Materials Discovery | Materials Science | NREL

    Discovery Materials Discovery Images of red and yellow particles NREL's research in materials characterization of sample by incoming beam and measuring outgoing particles, with data being stored and analyzed Staff Scientist Dr. Zakutayev specializes in design of novel semiconductor materials for energy

  20. Materials Sciences programs, fiscal year 1986

    1986-09-01

    Purpose of this report is to provide a convenient compilation and index of the DOE Materials Sciences Division programs. The report is divided into six sections. Section A contains all Laboratory projects, Section B has all contract research projects, Section C has projects funded under the Small Business Innovation Research Program, Sections D and E have information on DOE collaborative research centers, Section F gives distribution of funding, and Section G has various indexes

  1. Materials Sciences programs, Fiscal Year 1984

    1984-09-01

    This report provides a convenient compilation and index of the DOE Materials Sciences Division programs. The report is divided into six sections. Section A contains all Laboratory projects, Section B has all contract research projects, Section C has projects funded under the Small Business Innovation Research program, Section D has information on DOE collaborative research centers, Section E gives distributions of funding, and Section F has various indexes

  2. Microgravity Materials Science Conference 2000. Volume 1

    Ramachandran, Narayanan (Editor); Bennett, Nancy (Editor); McCauley, Dannah (Editor); Murphy, Karen (Editor); Poindexter, Samantha (Editor)

    2001-01-01

    This is Volume 1 of 3 of the 2000 Microgravity Material Science Conference that was held June 6-8 at the Von Braun Center, Huntsville, Alabama. It was organized by the Microgravity Materials Science Discipline Working Group, sponsored by the Microgravity Research Division (MRD) at NASA Headquarters, and hosted by NASA Marshall Space Flight Center and the Alliance for Microgravity Materials Science and Applications (AMMSA). It was the fourth NASA conference of this type in the microgravity materials science discipline. The microgravity science program sponsored approx. 200 investigators, all of whom made oral or poster presentations at this conference. In addition, posters and exhibits covering NASA microgravity facilities, advanced technology development projects sponsored by the NASA Microgravity Research Division at NASA Headquarters, and commercial interests were exhibited. The purpose of the conference was to inform the materials science community of research opportunities in reduced gravity and to highlight the Spring 2001 release of the NASA Research Announcement (NRA) to solicit proposals for future investigations. It also served to review the current research and activities in materials science, to discuss the envisioned long-term goals. and to highlight new crosscutting research areas of particular interest to MRD. The conference was aimed at materials science researchers from academia, industry, and government. A workshop on in situ resource utilization (ISRU) was held in conjunction with the conference with the goal of evaluating and prioritizing processing issues in Lunar and Martian type environments. The workshop participation included invited speakers and investigators currently funded in the material science program under the Human Exploration and Development of Space (HEDS) initiative. The conference featured a plenary session every day with an invited speaker that was followed by three parallel breakout sessions in subdisciplines. Attendance was

  3. Microgravity Materials Science Conference 2000. Volume 3

    Ramachandran, Narayanan; Bennett, Nancy; McCauley, Dannah; Murphy, Karen; Poindexter, Samantha

    2001-01-01

    This is Volume 3 of 3 of the 2000 Microgravity Materials Science Conference that was held June 6-8 at the Von Braun Center, Huntsville, Alabama. It was organized by the Microgravity Materials Science Discipline Working Group, sponsored by the Microgravity Research Division (MRD) at NASA Headquarters, and hosted by NASA Marshall Space Flight Center and the Alliance for Microgravity Materials Science and Applications (AMMSA). It was the fourth NASA conference of this type in the Microgravity materials science discipline. The microgravity science program sponsored 200 investigators, all of whom made oral or poster presentations at this conference- In addition, posters and exhibits covering NASA microgravity facilities, advanced technology development projects sponsored by the NASA Microgravity Research Division at NASA Headquarters, and commercial interests were exhibited. The purpose of the conference was to inform the materials science community of research opportunities in reduced gravity and to highlight the Spring 2001 release of the NASA Research Announcement (NRA) to solicit proposals for future investigations. It also served to review the current research and activities in material,, science, to discuss the envisioned long-term goals. and to highlight new crosscutting research areas of particular interest to MRD. The conference was aimed at materials science researchers from academia, industry, and government. A workshop on in situ resource utilization (ISRU) was held in conjunction with the conference with the goal of evaluating and prioritizing processing issues in Lunar and Martian type environments. The workshop participation included invited speakers and investigators currently funded in the material science program under the Human Exploration and Development of Space (HEDS) initiative. The conference featured a plenary session every day with an invited speaker that was followed by three parallel breakout sessions in subdisciplines. Attendance was close

  4. Microgravity Materials Science Conference 2000. Volume 2

    Ramachandran, Narayanan (Editor); Bennett, Nancy (Editor); McCauley, Dannah (Editor); Murphy, Karen (Editor); Poindexter, Samantha (Editor)

    2001-01-01

    This is Volume 2 of 3 of the 2000 Microgravity Materials Science Conference that was held June 6-8 at the Von Braun Center, Huntsville, Alabama. It was organized by the Microgravity Materials Science Discipline Working Group, sponsored by the Microgravity Research Division (MRD) at NASA Headquarters, and hosted by NASA Marshall Space Flight Center and the Alliance for Microgravity Materials Science and Applications (AMMSA). It was the fourth NASA conference of this type in the Microgravity materials science discipline. The microgravity science program sponsored approx. 200 investigators, all of whom made oral or poster presentations at this conference- In addition, posters and exhibits covering NASA microgravity facilities, advanced technology development projects sponsored by the NASA Microgravity Research Division at NASA Headquarters, and commercial interests were exhibited. The purpose of the conference %%,its to inform the materials science community of research opportunities in reduced gravity and to highlight the Spring 2001 release of the NASA Research Announcement (NRA) to solicit proposals for future investigations. It also served to review the current research and activities in material,, science, to discuss the envisioned long-term goals. and to highlight new crosscutting research areas of particular interest to MRD. The conference was aimed at materials science researchers from academia, industry, and government. A workshop on in situ resource utilization (ISRU) was held in conjunction with the conference with the goal of evaluating and prioritizing processing issues in Lunar and Martian type environments. The workshop participation included invited speakers and investigators currently funded in the material science program under the Human Exploration and Development of Space (HEDS) initiative. The conference featured a plenary session every day with an invited speaker that was followed by three parallel breakout sessions in subdisciplines. Attendance

  5. Progress report - Health Sciences Division - 1985 January 01 - June 30

    1985-09-01

    This progress report contains a topical summary of major research in the Health Sciences Division. Separate reports are included for each of the following branches: Dosimetric Research, Environmental Research, Radiation Biology, and Medical. Some of the main areas of interest discussed are the impact of studies on cultured human fibroblasts with abnormal carcinogen sensitivity. This includes mechanisms of DNA repair and for the initiation of cancer, contribution of such genes to overall societal cancer burden, impact on risk assessment, distribution of risk, and radiation protection, application to improved treatment of cancer, screening for abnormal carcinogen sensitivity and Roberts syndrome

  6. Communicating Ocean Science at the Lower-Division Level

    Coopersmith, A.

    2011-12-01

    Pacific Ocean Literacy for Youth, Publics, Professionals, and Scientists (POLYPPS) is an NSF-funded collaboration between the University of Hawai`i and the Center for Ocean Science Education Excellence (COSEE) - California, which is based at the Lawrence Hall of Science, University of California - Berkeley. One of the objectives of this project is to instutionalize ocean science communications courses at colleges and universities in Hawai`i. Although the focus of most of these communications courses has been on training graduate students and scientists, lower-division students interested in the ocean sciences are finding this background helpful. At the University of Hawai`i Maui College there are several marine science courses and certificate programs that require students to interact with the public through internships, research assistantships, and course-related service-learning projects. Oceanography 270, Communicating Ocean Science, is now offered to meet the needs of these students who engage with the public in informal educational settings. Other students who enroll in this course have a general interest in the marine environment and are considering careers in K-12 formal education. This course gives this group of students an opportunity to explore formal education by assisting classroom teachers and preparing and presenting problem-based, hands-on, inquiry activities. Employers at marine-related businesses and in the tourist industry have welcomed this course with a focus on communication skills and indicate that they prefer to hire local people with strong backgrounds in marine and natural sciences. A basic premise of POLYPPS is that science education must draw not only from the latest advances in science and technology but also from the cultural contexts in which the learners are embedded and that this will achieve increased understanding and stewardship of ocean environments. Students in Oceanography 270 integrate traditional Hawaiian knowledge into their

  7. Progress report: Chemistry and Materials Division, 1982 April 1 - June 30

    1982-08-01

    The work of the division in the areas of solid state studies, radiation chemistry, isotope separation, analytical chemistry and materials science is described. The solid state science group studied solute atom vacancy trapping in irradiated f.c.c. alloys as well as the rearrangement of atoms in solids bombarded by energetic heavy ions. In radiation chemistry, work was done on the pulse radiolysis of NO in argon. Isotope separation studies were done on fluoroform and uranium. Fuel burnup determination using 148 Nd and 139 La was investigated. Zirconium alloy studies included work on stress corrosion cracking and the Baushinger effect

  8. Quality manual for Laboratories of the Nuclear Materials Characterization Division

    Sabato, S.F.

    1991-05-01

    This publication presents the first Quality Manual for the Laboratories at the Nuclear Materials Characterization Division. The Manual describes the laboratories, its organization structure, fields of activities, personnel records, equipments, maintenance and calibration. The main aspects concerning quality assurance in the analysis were discussed. The whole system of receiving, identifying and processing analysis of the samples is shown. Since there are many information to be contained in several subjects of the Quality Manual, there were produced separate documents that are cross referenced in the manual. (author)

  9. Materials sciences programs: Fiscal year 1995

    NONE

    1996-05-01

    The purpose of this report is to provide a convenient compilation and index of the DOE Materials Science Division programs. This compilation is primarily intended for use by administrators, managers, and scientists to help coordinate research. The report is divided into eight sections. Section A contains all Laboratory projects, Section B has all contract research projects, Section C has projects funded under the Small Business Innovation Research Program, Section D describes the Center of Excellence for the Synthesis and Processing of Advanced Materials and E has information on major user facilities. F describes other user facilities, G as a summary of funding levels and H has indices characterizing research projects.

  10. Materials sciences programs fiscal year 1996

    NONE

    1997-06-01

    The purpose of this report is to provide a convenient compilation and index of the DOE Materials Sciences Division programs. This compilation is primarily intended for use by administrators, managers, and scientists to help coordinate research. The report is divided into eight sections. Section A contains all Laboratory projects, Section B has all contract research projects, Section C has projects funded under the Small Business Innovation Research Program, Section D describes the Center of Excellence for the Synthesis and Processing of Advanced Materials and E has information on major user facilities. F describes other user facilities, G as a summary of funding levels and H has indices characterizing research projects.

  11. Thin-Film Material Science and Processing | Materials Science | NREL

    Thin-Film Material Science and Processing Thin-Film Material Science and Processing Photo of a , a prime example of this research is thin-film photovoltaics (PV). Thin films are important because cadmium telluride thin film, showing from top to bottom: glass, transparent conducting oxide (thin layer

  12. Progress report - Physical and Environmental Sciences - Physics Division. 1994 January 1 to December 31

    Harvey, M [ed.

    1995-09-01

    This report marks the change from biannual to annual reports recording technical developments in Physics Division. During this period, AECL has continued with its restructuring program, with Physics Division now included in an expanded Physical and Environmental Sciences Unit. The Division itself remains unchanged, with major activities on neutron scattering, the Sudbury Neutrino Observatory and developments and applications of accelerator technology. (author).

  13. Progress report - Physical and Environmental Sciences - Physics Division. 1994 January 1 to December 31

    Harvey, M.

    1995-09-01

    This report marks the change from biannual to annual reports recording technical developments in Physics Division. During this period, AECL has continued with its restructuring program, with Physics Division now included in an expanded Physical and Environmental Sciences Unit. The Division itself remains unchanged, with major activities on neutron scattering, the Sudbury Neutrino Observatory and developments and applications of accelerator technology. (author)

  14. Reactor Engineering Division Material for World Wide Web Pages

    1996-01-01

    This document presents the home page of the Reactor Engineering Division of Argonne National Laboratory. This WWW site describes the activities of the Division, an introduction to its wide variety of programs and samples of the results of research by people in the division

  15. Argonne Physics Division Colloquium

    [Argonne Logo] [DOE Logo] Physics Division Home News Division Information Contact PHY Org Chart Physics Division Colloquium Auditorium, Building 203, Argonne National Laboratory Fridays at 11:00 AM 2017 : Sereres Johnston 15 Sep 2017 Joint Physics and Materials Science Colloquium J. C. Séamus Davis, Cornell

  16. Bayesian optimization for materials science

    Packwood, Daniel

    2017-01-01

    This book provides a short and concise introduction to Bayesian optimization specifically for experimental and computational materials scientists. After explaining the basic idea behind Bayesian optimization and some applications to materials science in Chapter 1, the mathematical theory of Bayesian optimization is outlined in Chapter 2. Finally, Chapter 3 discusses an application of Bayesian optimization to a complicated structure optimization problem in computational surface science. Bayesian optimization is a promising global optimization technique that originates in the field of machine learning and is starting to gain attention in materials science. For the purpose of materials design, Bayesian optimization can be used to predict new materials with novel properties without extensive screening of candidate materials. For the purpose of computational materials science, Bayesian optimization can be incorporated into first-principles calculations to perform efficient, global structure optimizations. While re...

  17. Bulletin of Materials Science | News

    Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, China; School of Materials Science and Engineering, Shanghai Institute of Technology, Shanghai 200235, China; Department of Physics, Shanghai University, Shanghai 200444, China; State Key Laboratory of Crystal Material, Shandong ...

  18. Teaching materials science and engineering

    Abstract. This paper is written with the intention of simulating discussion on teaching materials science and engineering in the universities. The article illustrates the tasks, priorities, goals and means lying ahead in the teaching of materials science and engineering for a sustainable future.

  19. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science. M K Rabinal. Articles written in Bulletin of Materials Science. Volume 35 Issue 4 August 2012 pp 529-532. An optical tweezer-based study of antimicrobial activity of silver nanoparticles · Yogesha Sarbari Bhattacharya M K Rabinal Sharath Ananthamurthy · More Details Abstract ...

  20. Social Science Libraries Section. Special Libraries Division. Papers.

    International Federation of Library Associations, The Hague (Netherlands).

    Three papers on the nonconventional literature and social science libraries were presented at the 1983 International Federation of Library Associations (IFLA) conference. In "Grey Material: A Scandinavian View," Birgitta Bergdahl (Sweden) outlines the etymology and meaning of the concept of "grey literature" (which can include…

  1. Materials Sciences Programs. Fiscal Year 1985

    1985-09-01

    The purpose of this report is to provide a convenient compilation and index of the DOE Materials Sciences Division programs. This compilation is primarily intended for use by administrators, managers, and scientists to help coordinate research. The report is divided into six sections. Section A contains all Laboratory projects, Section B has all contract research projects, Section C has projects funded under the Small Business Innovation Research Program, Sections D and E have information on DOE collaborative research centers, Section F gives distribution of funding, and Section G has various indexes

  2. Materials Sciences programs. Fiscal year 1982

    1982-09-01

    The purpose of this report is to provide a convenient compilation and index of the DOE Materials Sciences Division programs. This compilation is intended for use by administrators, managers, and scientists to help coordinate research and as an aid in selecting new programs. The report is divided into five sections. Section A contains all laboratory projects, Section B has all contract research projects, Section C has information on DOE collaborative research centers, Section D shows distribution of funding, and Section E has various indices

  3. Environmental Sciences Division. Annual progress report for period ending September 30, 1979

    1980-03-01

    Progress for the period ending September 30, 1979 by the Environmental Sciences Division is reported. Sections reporting include terrestrial ecoloy; earth sciences; environmental resources; aquatic ecology; synthetic fuels; nuclear program; environmental impacts program; ecosystem studies; and burial ground technology

  4. Environmental Sciences Division annual progress report for period ending September 30, 1992

    Van Hook, R. I.; Hildebrand, S. G.; Gehrs, C. W.; Sharples, F. E.; Shriner, D. S.; Stow, S. H.; Cushman, J. H.; Kanciruk, P.

    1993-04-01

    This progress report summarizes the research and development activities conducted in the Environmental Sciences Division of Oak Ridge National Laboratory during fiscal year (FY) 1992, which which extended from October 1, 1991, through September 30, 1992. This report is structured to provide descriptions of current activities and accomplishments in each of the division's major organizational units. Section activities are described in the Earth and Atmospheric sciences, ecosystem studies, Environmental analysis, environmental biotechnology, and division operations.

  5. Environmental Sciences Division annual progress report for period ending September 30, 1992

    1993-04-01

    This progress report summarizes the research and development activities conducted in the Environmental Sciences Division of Oak Ridge National Laboratory during fiscal year (FY) 1992, which which extended from October 1, 1991, through September 30, 1992. This report is structured to provide descriptions of current activities and accomplishments in each of the division's major organizational units. Section activities are described in the Earth and Atmospheric sciences, ecosystem studies, Environmental analysis, environmental biotechnology, and division operations

  6. Materials Informatics: Statistical Modeling in Material Science.

    Yosipof, Abraham; Shimanovich, Klimentiy; Senderowitz, Hanoch

    2016-12-01

    Material informatics is engaged with the application of informatic principles to materials science in order to assist in the discovery and development of new materials. Central to the field is the application of data mining techniques and in particular machine learning approaches, often referred to as Quantitative Structure Activity Relationship (QSAR) modeling, to derive predictive models for a variety of materials-related "activities". Such models can accelerate the development of new materials with favorable properties and provide insight into the factors governing these properties. Here we provide a comparison between medicinal chemistry/drug design and materials-related QSAR modeling and highlight the importance of developing new, materials-specific descriptors. We survey some of the most recent QSAR models developed in materials science with focus on energetic materials and on solar cells. Finally we present new examples of material-informatic analyses of solar cells libraries produced from metal oxides using combinatorial material synthesis. Different analyses lead to interesting physical insights as well as to the design of new cells with potentially improved photovoltaic parameters. © 2016 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.

  7. Bulletin of Materials Science

    Low temperature preparation of some perovskites La2MM'O6 (M,M'=Cr,Mn,Fe ... Inorganic materials for optical data storage -- S K Date ... Dielectric and polarization studies on some organic materials -- B jagannadh and Lalitha Sirdeshmukh.

  8. Contributions to materials science

    Asbeck, O.W.; Matucha, K.H.

    1989-01-01

    The ten papers presented at a festive colloquium held on November 14, 1988 in Frankfurt to honour Prof. Peter Wincierz deal with the texture and mechanical anisotropy of zirconium alloys (by E. Tenckhoff), materials for cladding tubes (H. Boehm), aluminium materials achieved by near technology (W. Bunk), dispersion-strengthened materials (H. Fischmeister), materials for plain bearings (K.H. Matucha), and the archeometallurgy of copper (H.-G. Bachmann). (MM) [de

  9. Cathodoluminescence | Materials Science | NREL

    shown on a computer screen; the image of a sample semiconductor material appears as a striated oval material sample shown above; the image is a high-contrast light and dark oval on a dark background and was top left of copper indium gallium selenide semiconductor material sample; the image is shown on a

  10. Progress report - Physical and Environmental Sciences - Physics Division, 1995 January 1 to December 31

    Harvey, M. (ed.)

    1996-05-01

    This document is a Progress Report for the Physical and Environmental Sciences, Physics Division, for the period 1995 January 1 to December 31, at the Chalk River nuclear Labs. The condensed matter science group continued to operate a multi-faceted program involving collaborative basic and applied research with external scientists in the fields of materials science, physics, chemistry and biology. The Applied Neutron Diffraction for Industry (And) program gained strength with ever wider applications for the nuclear, aerospace, and manufacturing programs. Steps continued towards making neutron scattering facilities at NRU reactor more user friendly. The neutrino physics group, as part of the Sudbury Neutrino Observatory (SNO) Institute, collaborating with scientists from Canada, USA and UK. The accelerator physics group spent considerable effort working with materials and fuels scientists to show the value of accelerators as an out-reactor source of radiation. Specific research activities have included the demonstration of laser plasma deposition of diamond coating, which has potential application for high-wear components in reactors, and the study for a Free Electron Laser upgrade for the IMPELA accelerator. As a result of funding reduction all programs of the Division were dissolved as of 1997 March 31.

  11. Progress report - Physical and Environmental Sciences - Physics Division, 1995 January 1 to December 31

    Harvey, M.

    1996-05-01

    This document is a Progress Report for the Physical and Environmental Sciences, Physics Division, for the period 1995 January 1 to December 31, at the Chalk River nuclear Labs. The condensed matter science group continued to operate a multi-faceted program involving collaborative basic and applied research with external scientists in the fields of materials science, physics, chemistry and biology. The Applied Neutron Diffraction for Industry (And) program gained strength with ever wider applications for the nuclear, aerospace, and manufacturing programs. Steps continued towards making neutron scattering facilities at NRU reactor more user friendly. The neutrino physics group, as part of the Sudbury Neutrino Observatory (SNO) Institute, collaborating with scientists from Canada, USA and UK. The accelerator physics group spent considerable effort working with materials and fuels scientists to show the value of accelerators as an out-reactor source of radiation. Specific research activities have included the demonstration of laser plasma deposition of diamond coating, which has potential application for high-wear components in reactors, and the study for a Free Electron Laser upgrade for the IMPELA accelerator. As a result of funding reduction all programs of the Division were dissolved as of 1997 March 31

  12. Materials science challenges in paintings.

    Walter, Philippe; de Viguerie, Laurence

    2018-01-23

    Through the paintings of the old masters, we showcase how materials science today provides us with a vision of the processes involved in the creation of a work of art: the choice of materials, the painter's skill in handling these materials, and the perception of the finished work.

  13. Materials science challenges in paintings

    Walter, Philippe; de Viguerie, Laurence

    2018-02-01

    Through the paintings of the old masters, we showcase how materials science today provides us with a vision of the processes involved in the creation of a work of art: the choice of materials, the painter's skill in handling these materials, and the perception of the finished work.

  14. Environmental Sciences Division Toxicology Laboratory standard operating procedures

    Kszos, L.A.; Stewart, A.J.; Wicker, L.F.; Logsdon, G.M.

    1989-09-01

    This document was developed to provide the personnel working in the Environmental Sciences Division's Toxicology Laboratory with documented methods for conducting toxicity tests. The document consists of two parts. The first part includes the standard operating procedures (SOPs) that are used by the laboratory in conducting toxicity tests. The second part includes reference procedures from the US Environmental Protection Agency document entitled Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Freshwater Organisms, upon which the Toxicology Laboratory's SOPs are based. Five of the SOPs include procedures for preparing Ceriodaphnia survival and reproduction test. These SOPs include procedures for preparing Ceriodaphnia food (SOP-3), maintaining Ceriodaphnia cultures (SOP-4), conducting the toxicity test (SOP-13), analyzing the test data (SOP-13), and conducting a Ceriodaphnia reference test (SOP-15). Five additional SOPs relate specifically to the fathead minnow (Pimephales promelas) larval survival and growth test: methods for preparing fathead minnow larvae food (SOP-5), maintaining fathead minnow cultures (SOP-6), conducting the toxicity test (SOP-9), analyzing the test data (SOP-12), and conducting a fathead minnow reference test (DOP-14). The six remaining SOPs describe methods that are used with either or both tests: preparation of control/dilution water (SOP-1), washing of glassware (SOP-2), collection and handling of samples (SOP-7), preparation of samples (SOP-8), performance of chemical analyses (SOP-11), and data logging and care of technical notebooks (SOP-16)

  15. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 39; Issue 1 .... Na + /B 3 + phosphor has a potential application in white light-emitting diodes based ... College of Mathematics and Physics, Jinggangshan University, Ji'an 343009, China ...

  16. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 38; Issue 3 ... In this study, a modified model for the application of the thermionic and hopping current ... Departments of Mathematics and Physics, Arab American University, Jenin 240, ...

  17. Moessbauer Spectroscopy in Materials Science

    2006-01-01

    The publication in electronic form has been set up as proceedings of the conference dealing with applications of the Moessbauer spectroscopy in material science. Twenty-three abstracts and twenty-two presentations are included.

  18. Progress report - physical sciences TASCC division 1991 January 01 - June 30

    Hardy, J.C.

    1991-09-01

    This is the second in a new series of reports of the work of the TASCC Division since the creation of the Physical Sciences Unit in 1990. Physical Sciences comprises four main sectors, namely the TASCC, Physics and Chemistry Divisions, and the National Fusion Program Management Office. Physics Division is responsible for research and development in the areas of condensed matter physics, neutron and neutrino physics, and accelerator physics, while TASCC Division deals with research performed with the Tandem and Superconducting Cyclotron accelerators, primarily in the field of Heavy Ion Nuclear Physics

  19. Physics, Computer Science and Mathematics Division. Annual report, 1 January-31 December 1979

    Lepore, J.V.

    1980-09-01

    This annual report describes the research work carried out by the Physics, Computer Science and Mathematics Division during 1979. The major research effort of the Division remained High Energy Particle Physics with emphasis on preparing for experiments to be carried out at PEP. The largest effort in this field was for development and construction of the Time Projection Chamber, a powerful new particle detector. This work took a large fraction of the effort of the physics staff of the Division together with the equivalent of more than a hundred staff members in the Engineering Departments and shops. Research in the Computer Science and Mathematics Department of the Division (CSAM) has been rapidly expanding during the last few years. Cross fertilization of ideas and talents resulting from the diversity of effort in the Physics, Computer Science and Mathematics Division contributed to the software design for the Time Projection Chamber, made by the Computer Science and Applied Mathematics Department

  20. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 40; Issue 1 ... I D S – V b g branches in accordance with the SERS results and humidity responses. ... Ni˘gde University, Graduate School Natural and Applied Sciences, Ni˘gde 51240, ...

  1. Introduction Of Computational Materials Science

    Lee, Jun Geun

    2006-08-01

    This book gives, descriptions of computer simulation, computational materials science, typical three ways of computational materials science, empirical methods ; molecular dynamics such as potential energy, Newton's equation of motion, data production and analysis of results, quantum mechanical methods like wave equation, approximation, Hartree method, and density functional theory, dealing of solid such as pseudopotential method, tight-binding methods embedded atom method, Car-Parrinello method and combination simulation.

  2. Bulletin of Materials Science | Indian Academy of Sciences

    Author Affiliations. Y M Z Ahmed1 S M El-Sheikh2 Z I Zaki1. Ceramic and Refractory Materials Division, Central Metallurgical Research and Development Institute, CMRDI, P.O. Box 87, 11421 Helwan, Egypt; Nano-structured Materials Division, Central Metallurgical Research and Development Institute, CMRDI, P.O. Box 87, ...

  3. Physical foundations of materials science

    Gottstein, Günter

    2004-01-01

    In this vivid and comprehensible introduction to materials science, the author expands the modern concepts of metal physics to formulate basic theory applicable to other engineering materials, such as ceramics and polymers. Written for engineering students and working engineers with little previous knowledge of solid-state physics, this textbook enables the reader to study more specialized and fundamental literature of materials science. Dozens of illustrative photographs, many of them Transmission Electron Microscopy images, plus line drawings, aid developing a firm appreciation of this complex topic. Hard-to-grasp terms such as "textures" are lucidly explained - not only the phenomenon itself, but also its consequences for the material properties. This excellent book makes materials science more transparent.

  4. Progress report, Chemistry and Materials Division 1 July - 30 September, 1981

    1981-11-01

    The work of the division in the areas of solid state physics, chemistry and materials science over the quarter is described. The solid state science branch has worked on crystal defect formation after ion beam irradiation. Laser isotope separation methods have produced visible amounts of water enriched 2000-fold in deuterium. Work has been done on hydrogen isotope exchange in H 2 -methanol mixtures. Nitrogen impurities in Xe-133 can be determined down to the microgram level. A new apparatus for the determination of hydrogen in zirconium has been assembled. Coatings of stainless steels on zircaloy fuel cladding continue to offer protection against oxidation. Agreement has been obtained between computer-simulated and observed electron microscope images of irradiated titanium. Cold-worked zirconium has been studied under helium ion bombardment

  5. Bulletin of Materials Science

    Influence of the presence of Fe2+ ion in nickel-zinc ferrite -- C M Srivastava, ... Investigation of hydrogenous materials using neutrons -- B A Dasannacharya and P S Goyal ... of potassium gold-cyanide -- Indira Rajagopal and S R Rajagopalan .... A novel method of RF powder sputtering -- K Solomon Harshavardhanan and ...

  6. Bulletin of Materials Science

    -organic chemical vapour deposited (MOCVD) gamma iron oxide thin film for ... V2)5-Te)2 glasses using heterogeneous conductor model -- M Pal, S K Saha and ... The hardness-flow stress correlation in metallic materials -- G Soundararajan ...

  7. Chemistry and Materials Science

    1993-07-01

    Thrust areas of the weapons-supporting research are growth, structure, and reactivity of surfaces and thin films; uranium research; physics and processing of metals; energetic materials; etc. The laboratory-directed R and D include director's initiatives and individual projects, and transactinium institute studies

  8. Weightless Materials Science

    Curtis, Jeremy

    2012-01-01

    Gravity affects everything we do. Only in very recent years have we been able to carry out experiments in orbit around the Earth and see for the first time how things behave in its absence. This has allowed us to understand fundamental processes better and to design new materials using this knowledge. (Contains 6 figures.)

  9. Physics, Computer Science and Mathematics Division annual report, 1 January-31 December 1983

    Jackson, J.D.

    1984-08-01

    This report summarizes the research performed in the Physics, Computer Science and Mathematics Division of the Lawrence Berkeley Laboratory during calendar year 1983. The major activity of the Division is research in high-energy physics, both experimental and theoretical, and research and development in associated technologies. A smaller, but still significant, program is in computer science and applied mathematics. During 1983 there were approximately 160 people in the Division active in or supporting high-energy physics research, including about 40 graduate students. In computer science and mathematics, the total staff, including students and faculty, was roughly 50. Because of the creation in late 1983 of a Computing Division at LBL and the transfer of the Computer Science activities to the new Division, this annual report is the last from the Physics, Computer Science and Mathematics Division. In December 1983 the Division reverted to its historic name, the Physics Division. Its future annual reports will document high energy physics activities and also those of its Mathematics Department

  10. Physics, Computer Science and Mathematics Division annual report, 1 January-31 December 1983

    Jackson, J.D.

    1984-08-01

    This report summarizes the research performed in the Physics, Computer Science and Mathematics Division of the Lawrence Berkeley Laboratory during calendar year 1983. The major activity of the Division is research in high-energy physics, both experimental and theoretical, and research and development in associated technologies. A smaller, but still significant, program is in computer science and applied mathematics. During 1983 there were approximately 160 people in the Division active in or supporting high-energy physics research, including about 40 graduate students. In computer science and mathematics, the total staff, including students and faculty, was roughly 50. Because of the creation in late 1983 of a Computing Division at LBL and the transfer of the Computer Science activities to the new Division, this annual report is the last from the Physics, Computer Science and Mathematics Division. In December 1983 the Division reverted to its historic name, the Physics Division. Its future annual reports will document high energy physics activities and also those of its Mathematics Department.

  11. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 26; Issue 5. Issue front cover thumbnail. Volume 26, Issue 5. August 2003, pages 461-568. pp 461-464 Sensor Materials. Preparation, characterization and dielectric behaviour of some yttrium doped strontium stannates · P K Bajpai Kuldeep Ratre Mukul Pastor T P ...

  12. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 33; Issue 2 ... films deposited by rf magnetron sputtering using a high quality ceramic target ... Critical shear stress produced by interaction of edge dislocation with nanoscale inhomogeneity ... production cost limiting zircon usage as a raw material at an industrial scale.

  13. Neutrons for materials science

    Windsor, C.G.; Allen, A.J.; Hutchings, M.T.; Sayers, C.M.; Sinclair, R.N.; Schofield, P.; Wright, C.J.

    1984-12-01

    The discussion will be limited to applied materials research performed on a customer/contractor basis. The information obtained using neutrons must therefore compete both scientifically and financially with information obtained using other techniques, particularly electron microscopy, X-ray, NMR, infra-red and Raman spectroscopy. It will be argued that the unique nature of the information gained from neutrons often outweighs the undoubted difficulties of access to neutron beams. Examples are given. Small angle scattering has emerged as the neutron technique of widest application in applied materials research. The penetration of neutron beams through containment vessels, as well as through the sample, allows the measurement of 'in situ' time dependent experiments within a furnace, cryostat, pressure vessel or chemical reactor vessel. High resolution powder diffraction is another technique with wide applications. Structural studies are possible on increasing complex phases. The structure and volume fraction of minority phases can be measured at levels appreciably below that possible by X-ray diffraction. A rapidly growing field at present is the measurement of internal strains through the small shifts in lattice spacing. Inelastic scattering measurements exploit the unique property of neutrons to measure the orientations of vibrating molecules. (author)

  14. Material Science Smart Coatings

    Rubinstein, A. I. [Univ. of Nebraska Medical Center, Omaha, NE (United States); Sabirianov, R. F. [Univ. of Nebraska Medical Center, Omaha, NE (United States); Namavar, Fereydoon [Univ. of Nebraska Medical Center, Omaha, NE (United States)

    2014-07-01

    The contribution of electrostatic interactions to the free energy of binding between model protein and a ceramic implant surface in the aqueous solvent, considered in the framework of the nonlocal electrostatic model, is calculated as a function of the implant low-frequency dielectric constant. We show that the existence of a dynamically ordered (low-dielectric) interfacial solvent layer at the protein-solvent and ceramic-solvent interface markedly increases charging energy of the protein and ceramic implant, and consequently makes the electrostatic contribution to the protein-ceramic binding energy more favorable (attractive). Our analysis shows that the corresponding electrostatic energy between protein and oxide ceramics depends nonmonotonically on the dielectric constant of ceramic, εC. Obtained results indicate that protein can attract electrostatically to the surface if ceramic material has a moderate εC below or about 35 (in particularly ZrO2 or Ta2O5). This is in contrast to classical (local) consideration of the solvent, which demonstrates an unfavorable electrostatic interaction of protein with typical metal oxide ceramic materialsC>10). Thus, a solid implant coated by combining oxide ceramic with a reduced dielectric constant can be beneficial to strengthen the electrostatic binding of the protein-implant complex.

  15. Biological materials: a materials science approach.

    Meyers, Marc A; Chen, Po-Yu; Lopez, Maria I; Seki, Yasuaki; Lin, Albert Y M

    2011-07-01

    The approach used by Materials Science and Engineering is revealing new aspects in the structure and properties of biological materials. The integration of advanced characterization, mechanical testing, and modeling methods can rationalize heretofore unexplained aspects of these structures. As an illustration of the power of this methodology, we apply it to biomineralized shells, avian beaks and feathers, and fish scales. We also present a few selected bioinspired applications: Velcro, an Al2O3-PMMA composite inspired by the abalone shell, and synthetic attachment devices inspired by gecko. Copyright © 2010 Elsevier Ltd. All rights reserved.

  16. Neutrons for materials science

    Windsor, C.G.; Allen, A.J.; Hutchings, M.T.; Sayers, C.M.; Sinclair, R.N.; Schofield, P.; Wright, C.J.

    1985-01-01

    The discussion will be limited to applied materials research performed on a customer/contractor basis. The information obtained using neutrons must therefore compete both scientifically and financially with information obtained using other techniques, particular electron microscopy, X-ray, NMR, infra-red and Raman spectroscopy. It will be argued that the unique nature of the information gained from neutrons often outweighs the undoubted difficulties of access to neutron beams. Small-angle scattering has emerged as the neutron technique of widest application in applied materials research. The penetration of neutron beams through containment vessels, as well as through the sample, allows the measurement of in situ time-dependent experiments within a furnace, cryostat, pressure vessel or chemical reactor vessel. Examples will be given of small-angle scattering projects from the nuclear metallurgy, coal, oil, cement, detergent and plastics industries. High-resolution powder diffraction is another technique with wide applications. Structural studies are possible on increasingly complex phases. The structure and volume fraction of minority phase can be measured at levels appreciably below that possible by X-ray diffraction. A rapidly growing field at present is the measurement of internal strains through the small shifts in lattice spacing. Neutron diffraction is unique in being able to measure the full strain tensor from a specified volume within a bulk specimen. Inelastic scattering measurements exploit the unique property of neutrons to measure the orientations of vibrating molecules. Examples will be chosen from the field of catalysis where inelastic spectroscopy has revealed the nature of the bonding of hydrocarbon molecules. (author)

  17. Life Sciences Division progress report for CYs 1997-1998[Oak Ridge National Laboratory

    Mann, Reinhold C.

    1999-01-01

    This is the first formal progress report issued by the ORNL Life Sciences Division. It covers the period from February 1997 through December 1998, which has been critical in the formation of our new division. The legacy of 50 years of excellence in biological research at ORNL has been an important driver for everyone in the division to do their part so that this new research division can realize the potential it has to make seminal contributions to the life sciences for years to come. This reporting period is characterized by intense assessment and planning efforts. They included thorough scrutiny of our strengths and weaknesses, analyses of our situation with respect to comparative research organizations, and identification of major thrust areas leading to core research efforts that take advantage of our special facilities and expertise. Our goal is to develop significant research and development (R and D) programs in selected important areas to which we can make significant contributions by combining our distinctive expertise and resources in the biological sciences with those in the physical, engineering, and computational sciences. Significant facilities in mouse genomics, mass spectrometry, neutron science, bioanalytical technologies, and high performance computing are critical to the success of our programs. Research and development efforts in the division are organized in six sections. These cluster into two broad areas of R and D: systems biology and technology applications. The systems biology part of the division encompasses our core biological research programs. It includes the Mammalian Genetics and Development Section, the Biochemistry and Biophysics Section, and the Computational Biosciences Section. The technology applications part of the division encompasses the Assessment Technology Section, the Environmental Technology Section, and the Toxicology and Risk Analysis Section. These sections are the stewards of the division's core competencies. The

  18. Life Sciences Division progress report for CYs 1997-1998 [Oak Ridge National Laboratory

    Mann, Reinhold C.

    1999-06-01

    This is the first formal progress report issued by the ORNL Life Sciences Division. It covers the period from February 1997 through December 1998, which has been critical in the formation of our new division. The legacy of 50 years of excellence in biological research at ORNL has been an important driver for everyone in the division to do their part so that this new research division can realize the potential it has to make seminal contributions to the life sciences for years to come. This reporting period is characterized by intense assessment and planning efforts. They included thorough scrutiny of our strengths and weaknesses, analyses of our situation with respect to comparative research organizations, and identification of major thrust areas leading to core research efforts that take advantage of our special facilities and expertise. Our goal is to develop significant research and development (R&D) programs in selected important areas to which we can make significant contributions by combining our distinctive expertise and resources in the biological sciences with those in the physical, engineering, and computational sciences. Significant facilities in mouse genomics, mass spectrometry, neutron science, bioanalytical technologies, and high performance computing are critical to the success of our programs. Research and development efforts in the division are organized in six sections. These cluster into two broad areas of R&D: systems biology and technology applications. The systems biology part of the division encompasses our core biological research programs. It includes the Mammalian Genetics and Development Section, the Biochemistry and Biophysics Section, and the Computational Biosciences Section. The technology applications part of the division encompasses the Assessment Technology Section, the Environmental Technology Section, and the Toxicology and Risk Analysis Section. These sections are the stewards of the division's core competencies. The

  19. Materials Sciences Programs. Fiscal Year 1980, Office of Basic Energy Sciences

    1980-09-01

    This report provides a convenient compilation index of the DOE Materials Sciences Division programs. This compilation is intended for use by administrators, managers, and scientists to help coordinate research and as an aid in selecting new programs and is divided into Sections A and B, listing all the projects, Section C, a summary of funding levels, and Section D, an index

  20. Materials Science with Ion Beams

    Bernas, Harry

    2010-01-01

    This book introduces materials scientists and designers, physicists and chemists to the properties of materials that can be modified by ion irradiation or implantation. These techniques can help design new materials or to test modified properties; novel applications already show that ion-beam techniques are complementary to others, yielding previously unattainable properties. Also, ion-beam interactions modify materials at the nanoscale, avoiding the often detrimental results of lithographic or chemical techniques. Here, the effects are related to better-known quasi-equilibrium thermodynamics, and the consequences to materials are discussed with concepts that are familiar to materials science. Examples addressed concern semiconductor physics, crystal and nanocluster growth, optics, magnetism, and applications to geology and biology.

  1. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 23; Issue 5. Issue front cover thumbnail. Volume 23, Issue 5. October 2000, pages 341-452. pp 341-344 Synthesis. Preparation of Pt–Ru bimetallic catalyst supported on carbon nanotubes · B Rajesh K Ravindranathan Thampi J -M Bonard B Viswanathan · More Details ...

  2. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 39; Issue 5. Effects of size on mass density and its influence on mechanical and thermal properties of ZrO 2 nanoparticles in different structures. BOTAN JAWDAT ABDULLAH QING JIANG MUSTAFA SAEED OMAR. Volume 39 Issue 5 September 2016 pp 1295-1302 ...

  3. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 32; Issue 4. Issue front cover thumbnail. Volume 32, Issue 4. August 2009, pages 369-463. pp 369-373 Thin Films. Mobility activation in thermally deposited CdSe thin films · Kangkan Sarmah Ranjan Sarma · More Details Abstract Fulltext PDF. Effect of illumination on ...

  4. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 40; Issue 5. Structural, microstructural and optical properties of Cu 2 ZnSnS 4 thin films prepared by thermal evaporation: effect of substrate temperature and annealing. U CHALAPATHI S UTHANNA V SUNDARA RAJA. Volume 40 Issue 5 September 2017 pp 887-895 ...

  5. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 24; Issue 1. Issue front cover thumbnail. Volume 24, Issue 1. February 2001, pages 1-94. pp 1-21 Review---Phase Transitions. Kinetics of pressure induced structural phase transitions—A review · N V Chandra Shekar K Govinda Rajan · More Details Abstract Fulltext ...

  6. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 25; Issue 6. Issue front cover thumbnail. Volume 25, Issue 6. November 2002, pages 449-582. pp 449- .... Bi-layer functionally gradient thick film semiconducting methane sensors .... Thermal sensor properties of PANI(EB)–CSA ( = 0.4 ± 0.1 mol) polymer thin films.

  7. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 30; Issue 1. Issue front cover thumbnail. Volume 30, Issue 1. February 2007, pages 1-71. pp 1-3 Single Crystals. Thermoluminescence characteristics of Sm doped NaYF4 crystals · M V Ramana Reddy Ch Gopal Reddy K Narasimha Reddy · More Details Abstract ...

  8. Bulletin of Materials Science | News

    The studies clearly indicate that the synthesized Y2O3 nanoparticle is a crystalline material with a particle size from 23 to 66 nm. Further analysis ... M Sundrarajan1. Advanced Green Chemistry Lab, Department of Industrial Chemistry, School of Chemical Sciences, Alagappa University, Karaikudi 630 003, Tamil Nadu, India ...

  9. Bulletin of Materials Science | News

    ... Lecture Workshops · Refresher Courses · Symposia · Live Streaming. Home; Journals; Bulletin of Materials Science; Volume 36; Issue 6. Self-assembling behaviour of Pt nanoparticles onto surface of TiO2 and their resulting photocatalytic activity. M Qamar Ashok K Ganguli. Volume 36 Issue 6 November 2013 pp 945-951 ...

  10. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 32; Issue 3. Issue front cover thumbnail. Volume 32, Issue 3. June 2009, pages 215-367. pp 215-215. Foreword · S B Krupanidhi H L Bhat · More Details Fulltext PDF. pp 217-225. Molecule-based magnets · J V Yakhmi · More Details Abstract Fulltext PDF.

  11. Bulletin of Materials Science | News

    Layered LiNi1/3Co1/3Mn1/3O2 was synthesized by a citric acid assisted ... was investigated by the galvanostatic intermittent titration technique (GITT) ... The State Key Laboratory Base of Novel Functional Materials and Preparation Science; ...

  12. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 23; Issue 3. Issue front cover thumbnail. Volume 23, Issue 3. June 2000, pages 159-238. pp 159-163 Nanomaterials. A note on the use of ellipsometry for studying the kinetics of formation of self-assembled monolayers · Murali Sastry · More Details Abstract Fulltext PDF.

  13. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 32; Issue 2. Issue front cover thumbnail. Volume 32, Issue 2. April 2009, pages 117-214. pp 117-123 Thin Films and Nanomatter. Microstructural characteristics and mechanical properties of magnetron sputtered nanocrystalline TiN films on glass substrate.

  14. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 25; Issue 4 ... were synthesized by self-propagating high temperature synthesis (SHS) method. ... Structure determination at room temperature and phase transition studies above T c in .... Hyperfine field distributions in disordered Mn2CoSn and Mn2NiSn Heusler alloys.

  15. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 25; Issue 3 ... Sintering of nano crystalline silicon carbide by doping with boron carbide ... of these powders was achieved by addition of boron carbide of 0.5 wt% together with carbon of 1 wt% at 2050°C at vacuum (3 mbar) for 15 min. ... pp 213-217 Alloys and Steels.

  16. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 38; Issue 3 .... (EDX) and UV–vis spectroscopy were used to study the chemical composition and optical .... Enhanced microactuation with magnetic field curing of magnetorheological ... Structure, morphology and corrosion resistance of Ni–Mo+PTh composite coatings.

  17. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 27; Issue 4. Issue front cover thumbnail. Volume 27, Issue 4. August 2004, pages 323-394. pp 323-325 Crystal Growth. Growth features of ammonium hydrogen -tartrate single crystals · G Sajeevkumar R Raveendran B S Remadevi Alexander Varghese Vaidyan.

  18. Bulletin of Materials Science | News

    Home; Journals; Bulletin of Materials Science; Volume 29; Issue 1. Issue front cover thumbnail. Volume 29, Issue 1. February 2006, pages 1-99. pp 1-5 Nanomaterials. A simple synthesis and characterization of CuS nanocrystals · Ujjal K Gautam Bratindranath Mukherjee · More Details Abstract Fulltext PDF. Water-soluble ...

  19. Progress report - Physical Sciences, Physical Division 1993 July 1 -December 31

    Harvey, M.

    1994-05-01

    The progress report on the Physical Sciences, Physics Division, is split into Accelerator Physics and Neutron and Condensed Matter Science Branch. The Accelerator Physics Group in collaboration with Fuel Channel Components Branch has undertaken a unique series of experiments to prove the feasibility of using high energy electron beams for out-reactor irradiation of bulk samples of pressure-tube materials. The Neutron and Condensed Matter Branch, has among other topics, been involved with the Sudbury Neutrino Observatory project. It is part of an international collaboration including Canada, United States, and the United Kingdom. The project involves the use of heavy water to detect particles called neutrinos that are emitted from the centre of the sun and from exploding stars. Results from the Molecular Physics program include a study of the differing structures of ice grown in an electric field. Atomic Ordering in the new intermetallics Al 3 Ti-X was extensively investigated in the Materials Science program. In the theory program a code to calculate the multiphonon expansion of the incoherent scattering function was written and it was applied in the analysis of phonon density of states for amorphous and crystalline ice. Further calculations were made to develop improved understanding of superconductivity and a theory for the conductivity of vortex cores was proposed. 3 tabs., 15 figs

  20. Progress report - Physical Sciences, Physical Division 1993 July 1 -December 31

    Harvey, M

    1994-05-01

    The progress report on the Physical Sciences, Physics Division, is split into Accelerator Physics and Neutron and Condensed Matter Science Branch. The Accelerator Physics Group in collaboration with Fuel Channel Components Branch has undertaken a unique series of experiments to prove the feasibility of using high energy electron beams for out-reactor irradiation of bulk samples of pressure-tube materials. The Neutron and Condensed Matter Branch, has among other topics, been involved with the Sudbury Neutrino Observatory project. It is part of an international collaboration including Canada, United States, and the United Kingdom. The project involves the use of heavy water to detect particles called neutrinos that are emitted from the centre of the sun and from exploding stars. Results from the Molecular Physics program include a study of the differing structures of ice grown in an electric field. Atomic Ordering in the new intermetallics Al{sub 3} Ti-X was extensively investigated in the Materials Science program. In the theory program a code to calculate the multiphonon expansion of the incoherent scattering function was written and it was applied in the analysis of phonon density of states for amorphous and crystalline ice. Further calculations were made to develop improved understanding of superconductivity and a theory for the conductivity of vortex cores was proposed. 3 tabs., 15 figs.

  1. Setting science free from materialism.

    Sheldrake, Rupert

    2013-01-01

    Contemporary science is based on the claim that all reality is material or physical. There is no reality but material reality. Consciousness is a by-product of the physical activity of the brain. Matter is unconscious. Evolution is purposeless. This view is now undergoing a credibility crunch. The biggest problem of all for materialism is the existence of consciousness. Panpsychism provides a way forward. So does the recognition that minds are not confined to brains. Copyright © 2013 Elsevier Inc. All rights reserved.

  2. Nutritional Science Funding Opportunities | Division of Cancer Prevention

    The Division of Cancer Prevention (DCP) conducts and supports research to determine a person's risk of cancer and to find ways to reduce the risk. This knowledge is critical to making progress against cancer because risk varies over the lifespan as genetic and epigenetic changes can transform healthy tissue into invasive cancer.

  3. Nutritional Science Clinical Trials | Division of Cancer Prevention

    The Division of Cancer Prevention (DCP) conducts and supports research to determine a person's risk of cancer and to find ways to reduce the risk. This knowledge is critical to making progress against cancer because risk varies over the lifespan as genetic and epigenetic changes can transform healthy tissue into invasive cancer.

  4. Nutritional Science Meetings and Events | Division of Cancer Prevention

    The Division of Cancer Prevention (DCP) conducts and supports research to determine a person's risk of cancer and to find ways to reduce the risk. This knowledge is critical to making progress against cancer because risk varies over the lifespan as genetic and epigenetic changes can transform healthy tissue into invasive cancer.

  5. Active Nutritional Science Grants | Division of Cancer Prevention

    The Division of Cancer Prevention (DCP) conducts and supports research to determine a person's risk of cancer and to find ways to reduce the risk. This knowledge is critical to making progress against cancer because risk varies over the lifespan as genetic and epigenetic changes can transform healthy tissue into invasive cancer.

  6. Phase change materials science and applications

    Raoux, Simone

    2009-01-01

    ""Phase Change Materials: Science and Applications"" provides a unique introduction of this rapidly developing field. This clearly written volume describes the material science of these fascinating materials from a theoretical and experimental perspective.

  7. Advances in the material science of concrete

    Ideker, Jason H; Radlinska, Aleksandra

    2010-01-01

    ... Committee 236, Material Science of Concrete. The session focused on material science aspects of concrete with an emphasis placed on advances in understanding the fundamental scientific topics of cement-based materials, as well as the crucial...

  8. Computational micromechanics of wind blade materials: recent activities at the Materials Research Division, Risoe DTU

    Mishnaevsky Jr., L.; Broendsted, P.; Qing, H.; Wang, H.; Soerensen, Bent F. (Technical Univ. of Denmark, Riso National Lab. for Sustainable Energy. Materials Research Div., Roskilde (Denmark)); OEstergaard, R.C. (LM Wind Power Blades, Composite Mechanics, Roskilde (Denmark))

    2010-10-22

    Recent research works in the area of 3D computational microstructural modelling, virtual testing and numerical optimization of wind blade materials, carried out at the Materials Research Division, Rise DTU (Programme Composites and Materials Mechanics) are summarized. The works presented here have been carried out in the framework of several research projects: EU FP6 Upwind, Danida project 'Development of wind energy technologies in Nepal' and SinoDanish project '3D Virtual Testing of composites for wind energy applications' as well as the Framework Program 'Interface design of composite materials' and recently established Danish Centre for Composite Structures and Materials for Wind Turbines. Different groups of materials, which are used or have a potential for use for the wind turbine blades, are modelled with the use of the methods of the computational micromechanics, in particular: (1) glass and carbon fiber reinforced polymer composites used in the large wind turbine blades, (2) different sorts of timber, used in small wind turbines (first of all, in developing countries) and (3) nanoparticle reinforced polymer matrix composites (which have a potential to be used as components for future high strength wind blades). On the basis of the developed 3D microstructural finite element models of these materials, we analyzed the effect of their microstructures on damage resistance, strength and stiffness. The methods of the 3D model design and results of the simulations are discussed in this paper. (Author)

  9. NASA Lewis Research Center's materials and structures division

    Weymueller, C.R.

    1976-01-01

    Research activities at the NASA Lewis Research Center on materials and structures are discussed. Programs are noted on powder metallurgy superalloys, eutectic alloys, dispersion strengthened alloys and composite materials. Discussions are included on materials applications, coatings, fracture mechanics, and fatigue

  10. A Mathematical Sciences Program at an Upper-Division Campus.

    Swetz, Frank J.

    1978-01-01

    The conception, objectives, contents, and limitations of a degree program in the mathematical sciences at Pennsylvania State University, Capitol Campus, are discussed. Career goals that may be pursued include: managerial, science, education, actuarial, and computer. (MP)

  11. Materials and Molecular Research Division annual report, 1977

    1977-01-01

    Progress in research in structure of materials, mechanical, and physical properties, solid state physics, and materials chemistry, including chemical structure, high temperature and surface chemistry, is reported. (FS)

  12. Los Alamos Life Sciences Division's biomedical and environmental research programs. Progress report, January-December 1980

    Holland, L.M.; Stafford, C.G.; Bolen, S.K.

    1981-09-01

    Highlights of research progress accomplished in the Life Sciences Division during the year ending December 1980 are summarized. Reports from the following groups are included: Toxicology, Biophysics, Genetics; Environmental Pathology, Organic Chemistry, and Environmental Sciences. Individual abstracts have been prepared for 46 items for inclusion in the Energy Data Base

  13. Materials science experiments in space

    Gelles, S. H.; Giessen, B. C.; Glicksman, M. E.; Margrave, J. L.; Markovitz, H.; Nowick, A. S.; Verhoeven, J. D.; Witt, A. F.

    1978-01-01

    The criteria for the selection of the experimental areas and individual experiments were that the experiment or area must make a meaningful contribution to the field of material science and that the space environment was either an absolute requirement for the successful execution of the experiment or that the experiment can be more economically or more conveniently performed in space. A number of experimental areas and individual experiments were recommended for further consideration as space experiments. Areas not considered to be fruitful and others needing additional analysis in order to determine their suitability for conduct in space are also listed. Recommendations were made concerning the manner in which these materials science experiments are carried out and the related studies that should be pursued.

  14. Environmental Sciences Division annual progress report for period ending September 30, 1991

    1992-04-01

    This progress report summarizes the research and development activities conducted in the Environmental Sciences Division of Oak Ridge National Laboratory during the period October 1, 1990, through September 30, 1991. The report is structured to provide descriptions of current activities and accomplishments in each of the division`s major organizational units. Following the sections describing the organizational units is a section devoted to lists of information necessary to convey the scope of the work in the division. The Environmental Sciences Division (ESD) at Oak Ridge National Laboratory (ORNL) conducts environmental research and analyses associated with both energy technology development and the interactions between people and the environment. The division engages in basic and applied research for a diverse list of sponsors. While the US Department of Energy (DOE) is the primary sponsor ESD staff also perform research for other federal agencies, state agencies, and private industry. The division works collaboratively with federal agencies, universities, and private organizations in achieving its research objectives and hosts a large number of visiting investigators from these organizations. Given the diverse interdisciplinary specialization of its staff, ESD provides technical expertise on complex environmental problems and renders technical leadership for major environmental issues of national and local concern. This progress report highlights many of ESD`s accomplishment in these and other areas in FY 1991.

  15. Program report for FY 1984 and 1985 Atmospheric and Geophysical Sciences Division of the Physics Department

    Knox, J.B.; MacCracken, M.C.; Dickerson, M.H.; Gresho, P.M.; Luther, F.M.

    1986-08-01

    This annual report for the Atmospheric and Geophysical Sciences Division (G-Division) summarizes the activities and highlights of the past three years, with emphasis on significant research findings in two major program areas: the Atmospheric Release Advisory Capability (ARAC), with its recent involvement in assessing the effects of the Chernobyl reactor accident, and new findings on the environmental consequences of nuclear war. The technical highlights of the many other research projects are also briefly reported, along with the Division's organization, budget, and publications.

  16. Program report for FY 1984 and 1985 Atmospheric and Geophysical Sciences Division of the Physics Department

    Knox, J.B.; MacCracken, M.C.; Dickerson, M.H.; Gresho, P.M.; Luther, F.M.

    1986-08-01

    This annual report for the Atmospheric and Geophysical Sciences Division (G-Division) summarizes the activities and highlights of the past three years, with emphasis on significant research findings in two major program areas: the Atmospheric Release Advisory Capability (ARAC), with its recent involvement in assessing the effects of the Chernobyl reactor accident, and new findings on the environmental consequences of nuclear war. The technical highlights of the many other research projects are also briefly reported, along with the Division's organization, budget, and publications

  17. Oak Ridge Institute for Science and Education, Medical Sciences Division report for 1994

    Snyder, F.; Poston, S.; Engle, J.

    1995-01-01

    The primary mission of the Medical Sciences Division is (1) to conduct basic and applied biomedical research on human health related to energy systems, (2) to provide technical assistance and training in occupational and environmental medicine, and (3) to make related biomedical applications available to others through technology transfer. As can be gleaned from this report, the strengths and capabilities of their staff in carrying out this mission are closely aligned with the four core competencies of ORISE: (1) occupational and environmental health, (2) environmental and safety evaluation and analysis, (3) education and training, and (4) enabling research. Brief descriptions of the various scientific and technical programs and their progress, as well as the staff responsible for the accomplishments made during 1994, are presented in this report. Research programs include the following: biochemistry; cytogenetics; Center for Epidemiologic Research; Center for Human Reliability Studies; occupational medicine; Radiation Emergency Assistance Center/Training Site; and Radiation Internal Dose Information Center

  18. Oak Ridge Institute for Science and Education, Medical Sciences Division report for 1994

    Snyder, F.; Poston, S.; Engle, J. [eds.

    1995-08-01

    The primary mission of the Medical Sciences Division is (1) to conduct basic and applied biomedical research on human health related to energy systems, (2) to provide technical assistance and training in occupational and environmental medicine, and (3) to make related biomedical applications available to others through technology transfer. As can be gleaned from this report, the strengths and capabilities of their staff in carrying out this mission are closely aligned with the four core competencies of ORISE: (1) occupational and environmental health, (2) environmental and safety evaluation and analysis, (3) education and training, and (4) enabling research. Brief descriptions of the various scientific and technical programs and their progress, as well as the staff responsible for the accomplishments made during 1994, are presented in this report. Research programs include the following: biochemistry; cytogenetics; Center for Epidemiologic Research; Center for Human Reliability Studies; occupational medicine; Radiation Emergency Assistance Center/Training Site; and Radiation Internal Dose Information Center.

  19. Bulletin of Materials Science | Indian Academy of Sciences

    Screen printing; ferroelectricity; piezoelectricity; nonlinear property. .... Luoyang Institute of Science and Technology, Luoyang 471023, China; Functional Materials Research Laboratory, Tongji University, Shanghai 200092, China; Department of Physics and Materials Science, City University of Hong Kong, Kowloon Tong, ...

  20. The structural science of functional materials.

    Catlow, C Richard A

    2018-01-01

    The growing complexity of functional materials and the major challenges this poses to structural science are discussed. The diversity of structural materials science and the contributions that computation is making to the field are highlighted.

  1. Progress report: Chemistry and Materials Division, 1983 January 1 - June 30

    1983-08-01

    The research progams in solid state science, analytical and physical chemistry and materials science are outlined for the first half of 1983. Studies are being carried out in the areas of surface science, isotope separation and irradiation effects on zirconium

  2. Progress report, Chemistry and Materials Division, 1 April - 30 June, 1981

    1981-08-01

    The work of the Division in the areas of solid state science, radiation, physical and analytical chemistry, and materials science during the quarter is described. Measurements of ion stopping power have emphasized the importance of axial symmetry and may be used to show the contribution of nuclear inelastic events to stopping processes. Enhancement of ion scattering at 180 degrees can occur even in the first few layers of a single crystal of gold implanted with heavy atoms. Agreement has been obtained between experimental and calculated rates for dechanneling of protons in gold. The rate of decomposition of HOI in aqueous solutions has been determined. The effects of radiation on dithiothreitol is being studied. Laser photochemistry work includes investigations of multiphoton dissociation and of laser-induced zirconium isotope separation. A method has been found for the preparation of oxygen gas samples for the determination of oxygen isotope ratios in water, and high-performance liquid chromatography has been applied to metals in ground water. Sputtered coatings of stainless steel on the surface of zircaloy fuel cladding reduce the oxidation rate in steam. A theoretically-based design equation for irradiation growth of pressure tubes has been developed. Studies on the effect of small strains on zircaloy-2 tubing show the need to avoid even small amounts of compressive deformation of calandria tubes

  3. Bulletin of Materials Science | Indian Academy of Sciences

    College of Materials Science and Engineering, Guilin University of Electronic Technology, Guilin 541004, China; Guangxi Key Laboratory of Information Materials, Guilin University of Electronic Technology, Guilin 541004, China; Department of Materials Science and Engineering, Luoyang Institute of Science and ...

  4. Bulletin of Materials Science | Indian Academy of Sciences

    Author Affiliations. K R Ravi1 R M Pillai1 B C Pai1 M Chakraborty2. Materials and Minerals Division, Regional Research Laboratory (CSIR), Thiruvananthapuram 695 019, India; Metallurgical and Materials Engineering, Indian Institute of Technology, Kharagpur 721 302, India ...

  5. Bulletin of Materials Science | Indian Academy of Sciences

    Division of Advanced Materials Engineering, Hydrogen & Fuel Cell Research Center, Engineering Research Institute, Chonbuk National University, 664-14 Deokjin-Dong 1Ga Deokjin-Gu Jeonju Jeonbuk, 561-756, South Korea; Department of Materials Engineering, Graduate School, Chonbuk National University, 664-14 ...

  6. Environmental Sciences Division. Annual progress report for period ending September 30, 1980

    Auerbach, S.I.; Reichle, D.E.

    1981-03-01

    Research conducted in the Environmental Sciences Division for the Fiscal Year 1980 included studies carried out in the following Division programs and sections: (1) Advanced Fossil Energy Program, (2) Nuclear Program, (3) Environmental Impact Program, (4) Ecosystem Studies Program, (5) Low-Level Waste Research and Development Program, (6) National Low-Level Waste Program, (7) Aquatic Ecology Section, (8) Environmental Resources Section, (9) Earth Sciences Section, and (10) Terrestrial Ecology Section. In addition, Educational Activities and the dedication of the Oak Ridge National Environmental Research Park are reported. Separate abstracts were prepared for the 10 sections of this report

  7. Environmental Sciences Division. Annual progress report for period ending September 30, 1980. [Lead abstract

    Auerbach, S.I.; Reichle, D.E.

    1981-03-01

    Research conducted in the Environmental Sciences Division for the Fiscal Year 1980 included studies carried out in the following Division programs and sections: (1) Advanced Fossil Energy Program, (2) Nuclear Program, (3) Environmental Impact Program, (4) Ecosystem Studies Program, (5) Low-Level Waste Research and Development Program, (6) National Low-Level Waste Program, (7) Aquatic Ecology Section, (8) Environmental Resources Section, (9) Earth Sciences Section, and (10) Terrestrial Ecology Section. In addition, Educational Activities and the dedication of the Oak Ridge National Environmental Research Park are reported. Separate abstracts were prepared for the 10 sections of this report.

  8. Reinventing Material Science - Continuum Magazine | NREL

    by Sandia National Laboratories Reinventing Material Science It's not often that scientists set out pursuing in the field of material science. The vision of the center is to revolutionize the discovery of new material science. "In the old days, if you wanted somebody to calculate the properties of a

  9. Bulletin of Materials Science | Indian Academy of Sciences

    Nisha R1 K N Madhusoodanan1 T V Vimalkumar2 K P Vijayakumar3. Department of Instrumentation, Cochin University of Science and Technology, Cochin 682 022, India; Department of Physics, St. Thomas' College, Thrissur 680001, Kerala; Thin Film Photovoltaic Division, Department of Physics, Cochin University of ...

  10. Bulletin of Materials Science | Indian Academy of Sciences

    Department of Metal Physics, Ivan Franko National University, 8 Kyrylo and Mephodiy Str. 79005 Lviv, Ukraine; Ural State Pedagogical University, 26 Cosmonavtov Av. 620017 Ekaterinburg, Russia; Institute of Metallurgy, Ural's Division of Russian Academy of Sciences, 101 Amundsen Str. 620016 Ekaterinburg, Russia ...

  11. Environmental Sciences Division annual progress report for period ending September 30, 1991

    1992-04-01

    This progress report summarizes the research and development activities conducted in the Environmental Sciences Division of Oak Ridge National Laboratory during the period October 1, 1990, through September 30, 1991. The report is structured to provide descriptions of current activities and accomplishments in each of the division's major organizational units. Following the sections describing the organizational units is a section devoted to lists of information necessary to convey the scope of the work in the division. The Environmental Sciences Division (ESD) at Oak Ridge National Laboratory (ORNL) conducts environmental research and analyses associated with both energy technology development and the interactions between people and the environment. The division engages in basic and applied research for a diverse list of sponsors. While the US Department of Energy (DOE) is the primary sponsor ESD staff also perform research for other federal agencies, state agencies, and private industry. The division works collaboratively with federal agencies, universities, and private organizations in achieving its research objectives and hosts a large number of visiting investigators from these organizations. Given the diverse interdisciplinary specialization of its staff, ESD provides technical expertise on complex environmental problems and renders technical leadership for major environmental issues of national and local concern. This progress report highlights many of ESD's accomplishment in these and other areas in FY 1991.

  12. Phospholipid Vesicles in Materials Science

    Granick, Steve [Univ. of Illinois, Champaign, IL (United States)

    2016-05-11

    The objective of this research was to develop the science basis needed to deploy phospholipid vesicles as functional materials in energy contexts. Specifically, we sought to: (1) Develop an integrated molecular-level understanding of what determines their dynamical shape, spatial organization, and responsiveness to complex, time-varying environments; and (2) Develop understanding of their active transportation in crowded environments, which our preliminary measurements in cells suggest may hold design principles for targeting improved energy efficiency in new materials systems. The methods to do this largely involved fluorescence imaging and other spectroscopy involving single particles, vesicles, particles, DNA, and endosomes. An unexpected importance outcome was a new method to image light-emitting diodes during actual operation using super-resolution spectroscopy.

  13. Physics, Computer Science and Mathematics Division. Annual report, 1 January--31 December 1977. [LBL, 1977

    Lepore, J.V. (ed.)

    1977-01-01

    This annual report of the Physics, Computer Science and Mathematics Division describes the scientific research and other work carried out within the Division during 1977. The Division is concerned with work in experimental and theoretical physics, with computer science and applied mathematics, and with the operation of a computer center. The major physics research activity is in high-energy physics, although there is a relatively small program of medium-energy research. The High Energy Physics research program in the Physics Division is concerned with fundamental research which will enable man to comprehend the nature of the physical world. The major effort is now directed toward experiments with positron-electron colliding beam at PEP. The Medium Energy Physics program is concerned with research using mesons and nucleons to probe the properties of matter. This research is concerned with the study of nuclear structure, nuclear reactions, and the interactions between nuclei and electromagnetic radiation and mesons. The Computer Science and Applied Mathematics Department engages in research in a variety of computer science and mathematics disciplines. Work in computer science and applied mathematics includes construction of data bases, computer graphics, computational physics and data analysis, mathematical modeling, and mathematical analysis of differential and integral equations resulting from physical problems. The Computer Center provides large-scale computational support to LBL's scientific programs. Descriptions of the various activities are quite short; references to published results are given. 24 figures. (RWR)

  14. Physics, Computer Science and Mathematics Division. Annual report, 1 January--31 December 1977

    Lepore, J.V.

    1977-01-01

    This annual report of the Physics, Computer Science and Mathematics Division describes the scientific research and other work carried out within the Division during 1977. The Division is concerned with work in experimental and theoretical physics, with computer science and applied mathematics, and with the operation of a computer center. The major physics research activity is in high-energy physics, although there is a relatively small program of medium-energy research. The High Energy Physics research program in the Physics Division is concerned with fundamental research which will enable man to comprehend the nature of the physical world. The major effort is now directed toward experiments with positron-electron colliding beam at PEP. The Medium Energy Physics program is concerned with research using mesons and nucleons to probe the properties of matter. This research is concerned with the study of nuclear structure, nuclear reactions, and the interactions between nuclei and electromagnetic radiation and mesons. The Computer Science and Applied Mathematics Department engages in research in a variety of computer science and mathematics disciplines. Work in computer science and applied mathematics includes construction of data bases, computer graphics, computational physics and data analysis, mathematical modeling, and mathematical analysis of differential and integral equations resulting from physical problems. The Computer Center provides large-scale computational support to LBL's scientific programs. Descriptions of the various activities are quite short; references to published results are given. 24 figures

  15. Environmental Sciences Division annual progress report for period ending September 30, 1993

    1994-05-01

    This progress report summarizes the research and development activities conducted in the Environmental Sciences Division (ESD) of Oak Ridge National Laboratory during fiscal year (FY) 1993, which extended from October 1, 1992, through September 30, 1993. The report is structured to provide descriptions of current activities and accomplishments in each of the division`s major organizational units. Following the sections describing the organizational units are sections highlighting ESD Scientific, Technical, and Administrative Achievement awards and listing information necessary to convey the scope of the work in the division. An organizational chart of staff and long-term guests who were in ESD and the end of FY 1993 is located in the final section of the report.

  16. Environmental Sciences Division annual progress report for period ending September 30, 1994

    NONE

    1994-12-31

    This progress report summarizes the research and development activities conducted in the Environmental Sciences Division (ESD) of Oak Ridge National Laboratory during fiscal year (FY) 1994, which extended from October 1, 1993, through September 30, 1994. The report is structured to provide descriptions of current activities and accomplishments in each of the division`s major organizational units. Following the sections describing the organizational units are sections highlighting ESD Scientific, Technical, and Administrative Achievement awards and listing information necessary to covey the scope of the work in the division. An organizational chart of staff and long-term guests who wee in ESD at the end of FY 1994 is located in the final section of the report.

  17. Physics, Computer Science and Mathematics Division annual report, January 1--December 31, 1976

    Lepore, J.V. (ed.)

    1977-01-01

    This annual report of the Physics, Computer Science and Mathematics Division describes the scientific research and other work carried out within the Division during the calendar year 1976. The Division is concerned with work in experimental and theoretical physics, with computer science and applied mathematics, and with the operation of a computer center. The major physics research activity is in high-energy physics; a vigorous program is maintained in this pioneering field. The high-energy physics research program in the Division now focuses on experiments with e/sup +/e/sup -/ colliding beams using advanced techniques and developments initiated and perfected at the Laboratory. The Division continues its work in medium energy physics, with experimental work carried out at the Bevatron and at the Los Alamos Pi-Meson Facility. Work in computer science and applied mathematics includes construction of data bases, computer graphics, computational physics and data analysis, mathematical modeling, and mathematical analysis of differential and integral equations resulting from physical problems. The computer center serves the Laboratory by constantly upgrading its facility and by providing day-to-day service. This report is descriptive in nature; references to detailed publications are given. (RWR)

  18. Physics, Computer Science and Mathematics Division annual report, January 1--December 31, 1976

    Lepore, J.V.

    1977-01-01

    This annual report of the Physics, Computer Science and Mathematics Division describes the scientific research and other work carried out within the Division during the calendar year 1976. The Division is concerned with work in experimental and theoretical physics, with computer science and applied mathematics, and with the operation of a computer center. The major physics research activity is in high-energy physics; a vigorous program is maintained in this pioneering field. The high-energy physics research program in the Division now focuses on experiments with e + e - colliding beams using advanced techniques and developments initiated and perfected at the Laboratory. The Division continues its work in medium energy physics, with experimental work carried out at the Bevatron and at the Los Alamos Pi-Meson Facility. Work in computer science and applied mathematics includes construction of data bases, computer graphics, computational physics and data analysis, mathematical modeling, and mathematical analysis of differential and integral equations resulting from physical problems. The computer center serves the Laboratory by constantly upgrading its facility and by providing day-to-day service. This report is descriptive in nature; references to detailed publications are given

  19. Progress report - physical sciences - physics division - 1993 January 01 - June 30

    1993-11-01

    After significant organizational change for the Physics Division, there are now two groups: Neutron and Condensed Matter Science, and Nuclear Physics. Theoretical Physics Branch was disbanded. A topical review of work on high power proton linacs describes the historical development of high power ion linacs and the ion source development program from initiation to its completion in 1993. RFQ1 became the first particle accelerator to be driven by a klystrode-based rf system. The accelerator operated at 1.25 MeV and accelerated more than 50 mA of high quality beam. The equipment has been sent to Los Alamos National Laboratory and will be recommissioned as the Chalk River Injection Test Stand (CRITS). The laser plasma beatwave accelerator generating accelerating field gradients of up to 1.8 GeV/m and acceleration of an injected electron beam to at least 30 meV over a 1 cm distance. The high power CO 2 laser beam was used to irradiate Zr-N6 pressure tube samples. The aim was to assess surface modifications particularly from shock hardening. Application of radiofrequency waves were used to investigate the properties of relevant materials, notably industrial ferrites. Chalk River participated in an international collaboration on measurement of dielectric properties of materials at high temperatures. A second topical review on neutron scattering and mineral physics deals with phase transitions in carbonate and in silicates. Dualspec is operating successfully. Modifications have been made to improve safety, reproducibility, angle control, calibration and sample analysis. Reviews from six programs: physics, molecular physics, material science, condensed matter theory, neutrino physics, and molecular dating and modelling are given. 1 tab., 17 figs

  20. Progress report - physical sciences - physics division - 1993 January 01 - June 30

    NONE

    1993-11-01

    After significant organizational change for the Physics Division, there are now two groups: Neutron and Condensed Matter Science, and Nuclear Physics. Theoretical Physics Branch was disbanded. A topical review of work on high power proton linacs describes the historical development of high power ion linacs and the ion source development program from initiation to its completion in 1993. RFQ1 became the first particle accelerator to be driven by a klystrode-based rf system. The accelerator operated at 1.25 MeV and accelerated more than 50 mA of high quality beam. The equipment has been sent to Los Alamos National Laboratory and will be recommissioned as the Chalk River Injection Test Stand (CRITS). The laser plasma beatwave accelerator generating accelerating field gradients of up to 1.8 GeV/m and acceleration of an injected electron beam to at least 30 meV over a 1 cm distance. The high power CO{sub 2} laser beam was used to irradiate Zr-N6 pressure tube samples. The aim was to assess surface modifications particularly from shock hardening. Application of radiofrequency waves were used to investigate the properties of relevant materials, notably industrial ferrites. Chalk River participated in an international collaboration on measurement of dielectric properties of materials at high temperatures. A second topical review on neutron scattering and mineral physics deals with phase transitions in carbonate and in silicates. Dualspec is operating successfully. Modifications have been made to improve safety, reproducibility, angle control, calibration and sample analysis. Reviews from six programs: physics, molecular physics, material science, condensed matter theory, neutrino physics, and molecular dating and modelling are given. 1 tab., 17 figs.

  1. About the Nutritional Science Research Group | Division of Cancer Prevention

    The Nutritional Science Research Group (NSRG) promotes and supports studies establishing a comprehensive understanding of the precise role of diet and food components in modulating cancer risk and tumor cell behavior. This focus includes approaches to characterize molecular targets and variability in individual responses to nutrients and dietary patterns. |

  2. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 27; Issue 5 ... The electrical performances of thin film material can be improved largely by dopants. ... Department of Materials Science and Engineering, Jinan University, Jinan 250022, PR China; The State Key Laboratory of Material Composite and Advanced ...

  3. Chemistry and Materials Science Directorate 2005 Annual Report

    Diaz De La Rubia, T; Fluss, M J; Rath, K; Rennie, G; Shang, S; Kitrinos, G

    2006-01-01

    discovery of a new source of coherent light adds a new tool to an array of methods we use to more fully understand the properties of materials. Insights into the early stages of polymer crystallization may lead to new materials for our national-security mission and private industry. (3) Science Supporting National Objectives at the Intersection of Chemistry, Materials Science, and Biology--We are improving drug binding for cancer treatment through the use of new tools that are helping us characterize protein-antibody interactions. By probing proteins and nucleic acids, we may gain an understanding of Alzheimer's, Mad Cow, and other neurodegenerative diseases. (4) Applied Nuclear Science for Human Health and National Security--Our work with cyanobacteria is leading to a fuller understanding of how these microorganisms affect the global carbon cycle. We are also developing new ways to reduce nuclear threats with better radiation detectors. Dynamic Teams: The dynamic teams section illustrates the directorate's organizational structure that supports a team environment across disciplinary and institutional boundaries. Our three divisions maintain a close relationship with Laboratory programs, working with directorate and program leaders to ensure an effective response to programmatic needs. CMS's divisions are responsible for line management and leadership, and together, provide us with the flexibility and agility to respond to change and meet program milestones. The three divisions are: Materials Science and Technology Division; Chemistry and Chemical Engineering Division; and Chemical Biology and Nuclear Science Division. By maintaining an organizational structure that offers an environment of collaborative problem-solving opportunities, we are able to nurture the discoveries and breakthroughs required for future successes. The dynamic teams section also presents the work of CMS's postdoctoral fellows, who bring to the Laboratory many of the most recent advances taking place

  4. Chemistry and Materials Science Directorate 2005 Annual Report

    Diaz De La Rubia, T; Fluss, M J; Rath, K; Rennie, G; Shang, S; Kitrinos, G

    2006-08-08

    discovery of a new source of coherent light adds a new tool to an array of methods we use to more fully understand the properties of materials. Insights into the early stages of polymer crystallization may lead to new materials for our national-security mission and private industry. (3) Science Supporting National Objectives at the Intersection of Chemistry, Materials Science, and Biology--We are improving drug binding for cancer treatment through the use of new tools that are helping us characterize protein-antibody interactions. By probing proteins and nucleic acids, we may gain an understanding of Alzheimer's, Mad Cow, and other neurodegenerative diseases. (4) Applied Nuclear Science for Human Health and National Security--Our work with cyanobacteria is leading to a fuller understanding of how these microorganisms affect the global carbon cycle. We are also developing new ways to reduce nuclear threats with better radiation detectors. Dynamic Teams: The dynamic teams section illustrates the directorate's organizational structure that supports a team environment across disciplinary and institutional boundaries. Our three divisions maintain a close relationship with Laboratory programs, working with directorate and program leaders to ensure an effective response to programmatic needs. CMS's divisions are responsible for line management and leadership, and together, provide us with the flexibility and agility to respond to change and meet program milestones. The three divisions are: Materials Science and Technology Division; Chemistry and Chemical Engineering Division; and Chemical Biology and Nuclear Science Division. By maintaining an organizational structure that offers an environment of collaborative problem-solving opportunities, we are able to nurture the discoveries and breakthroughs required for future successes. The dynamic teams section also presents the work of CMS's postdoctoral fellows, who bring to the Laboratory many of the most recent

  5. Physics, Computer Science and Mathematics Division. Annual report, January 1-December 31, 1980

    Birge, R.W.

    1981-12-01

    Research in the physics, computer science, and mathematics division is described for the year 1980. While the division's major effort remains in high energy particle physics, there is a continually growing program in computer science and applied mathematics. Experimental programs are reported in e + e - annihilation, muon and neutrino reactions at FNAL, search for effects of a right-handed gauge boson, limits on neutrino oscillations from muon-decay neutrinos, strong interaction experiments at FNAL, strong interaction experiments at BNL, particle data center, Barrelet moment analysis of πN scattering data, astrophysics and astronomy, earth sciences, and instrument development and engineering for high energy physics. In theoretical physics research, studies included particle physics and accelerator physics. Computer science and mathematics research included analytical and numerical methods, information analysis techniques, advanced computer concepts, and environmental and epidemiological studies

  6. Physics, Computer Science and Mathematics Division. Annual report, January 1-December 31, 1980

    Birge, R.W.

    1981-12-01

    Research in the physics, computer science, and mathematics division is described for the year 1980. While the division's major effort remains in high energy particle physics, there is a continually growing program in computer science and applied mathematics. Experimental programs are reported in e/sup +/e/sup -/ annihilation, muon and neutrino reactions at FNAL, search for effects of a right-handed gauge boson, limits on neutrino oscillations from muon-decay neutrinos, strong interaction experiments at FNAL, strong interaction experiments at BNL, particle data center, Barrelet moment analysis of ..pi..N scattering data, astrophysics and astronomy, earth sciences, and instrument development and engineering for high energy physics. In theoretical physics research, studies included particle physics and accelerator physics. Computer science and mathematics research included analytical and numerical methods, information analysis techniques, advanced computer concepts, and environmental and epidemiological studies. (GHT)

  7. Progress report Health Sciences Division - 1984 July 01 to December 31

    1985-02-01

    This progress report contains a topical summary of major research in the Health Sciences Division. Separate reports are included for each of the following branches: Health Physics, Environmental Research, Radiation Biology, Biomedical Research and Medical. Some of the main areas of interest discussed are health and safety aspects of tritium. This includes instrumentation, environmental studies, metabolism, dosimetry and health effects

  8. Feminist Knowledge Claims, Local Knowledge, and Gender Divisions of Agricultural Labor: Constructing a Successor Science.

    Feldman, Shelley; Welsh, Rick

    1995-01-01

    Issues raised by feminist epistemic critiques of social science are used to examine local (farmer-based) knowledge of agriculture and its contribution to analyses of agricultural sustainability. Focuses on the on-farm gender division of labor as critical in constituting the family farm, and elaborates how different experiences of men and women…

  9. Progress report Physical and Environmental Sciences TASCC Division 1994 July 1 to December 31

    NONE

    1995-05-01

    The TASCC division of the Physics and Environmental Sciences releases this progress report to overview the research and instrumentation and facility development. The accelerator operation was smooth for the Tandem and rather difficult for the cyclotron. Progress has been made on all major development projects. A listing is included of all publications, reports, lectures and conference contributions. 14 tabs., 28 figs.

  10. Progress report Physical and Environmental Sciences TASCC Division 1994 July 1 to December 31

    1995-05-01

    The TASCC division of the Physics and Environmental Sciences releases this progress report to overview the research and instrumentation and facility development. The accelerator operation was smooth for the Tandem and rather difficult for the cyclotron. Progress has been made on all major development projects. A listing is included of all publications, reports, lectures and conference contributions. 14 tabs., 28 figs

  11. Nuclear Science Division annual report, October 1, 1982-September 30, 1983

    Mahoney, J.

    1984-08-01

    This report summarizes research carried out within the Nuclear Science Division between October 1, 1982 and September 30, 1983. Experimental and theoretical investigations of heavy ion reactions are reported. In addition, the development of instrumentation for charge measurements and an on-line mass analyzer are discussed. Individual reports are cataloged separately

  12. [Funding for Division of Microbiology in 2014 by National Natural Science Foundation of China].

    Qiao, Jianjun; Huang, Chenyang; Liu, Lin; Wen, Mingzhang

    2015-02-04

    In this paper, we provided an overview of proposals submitted and projects funded in 2014 at the Division of Microbiology, Department of Life Sciences, National Natural Science Foundation of China. The traits and problems in different sub-disciplines were analyzed, the background, results and analysis of internet voting before panel meetings in Microbiology discipline were also introduced. The information will provide references for Chinese researchers to apply funding in microbiology discipline in the future.

  13. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 29; Issue 5 ... Polyester urethane; scaffold; tensile strength; swelling; degradation; cell culture. ... Materials Science Centre, Indian Institute of Technology, Kharagpur 721 302, India; School of Medical Science and Technology, Indian Institute of Technology, Kharagpur ...

  14. Bulletin of Materials Science | Indian Academy of Sciences

    Ming Kang1 2 Xiaoming Liao1 Guangfu Yin1 Xun Sun3 Xing Yin4 Lu Xie4 Jun Liu2. College of Materials Science and Engineering, Sichuan University, Chengdu 610064, China; College of Material Science and Engineering, Southwest University of Science and Technology, Mianyang 621010, China; Department of ...

  15. Progress report: Health Sciences Division, 1983 July 1 - December 31

    1984-02-01

    This report summarizes programs in health physics, radiation biology, environmental sciences and biomedical research. Health physics research included work on neutron dosimetry, thermoluminescent dosimetry, measurements of γ- and β-sensitivity of MOSFET detectors, tritium monitoring, a stack effluent monitor, and other radiation instruments. Environmental research included studies of heated plumes, radiotracer studies of flow through rock fractures, radionuclide cycling by plants, stable cobalt in fish, long-term radiation protection objectives for radioactive waste disposal, and tritium in surface waters in the CRNL vicinity. Radiation biology research continued to be concerned with DNA damage from radiation and carcinogenic chemicals, and enzymatic Σrepair processesΣ which help protect cells from such damage. In biomedical research the experiment to measure the fraction of HT by volunteers that is converted to HTO in vivo is progressing satisfactorily

  16. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. BALDEV RAJ. Articles written in Bulletin of Materials Science. Volume 26 Issue 4 June 2003 pp 449-460 Instrumentation. Thermogravimetry-evolved gas analysis–mass spectrometry system for materials research · M Kamruddin P K Ajikumar S Dash A K Tyagi Baldev Raj.

  17. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. D S Prasad. Articles written in Bulletin of Materials Science. Volume 25 Issue 2 April 2002 pp 79-83 Materials Synthesis. Preparation of high purity tellurium by zone refining · N R Munirathnam D S Prasad Ch Sudheer A J Singh T L Prakash · More Details Abstract Fulltext PDF.

  18. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. S R Dhage. Articles written in Bulletin of Materials Science. Volume 27 Issue 1 February 2004 pp 43-45 Dielectric Materials. Nonlinear – characteristics study of doped SnO2 · S R Dhage V Ravi S K Date · More Details Abstract Fulltext PDF. When tin oxide is doped with ...

  19. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. U S Sajeev. Articles written in Bulletin of Materials Science. Volume 27 Issue 2 April 2004 pp 155-161 Magnetic Materials. Magnetic field induced assembling of nanoparticles in ferrofluidic liquid thin films based on NiFe1-Fe2O4 · V S Abraham S Swapna Nair S Rajesh U S ...

  20. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. SARAVANA KUMAR JAGANATHAN. Articles written in Bulletin of Materials Science. Volume 41 Issue 1 February 2018 pp 18. Advanced nanofibrous textile-based dressing material for treating chronic wounds · ISABEL HERRMANN EKO SUPRIYANTO SARAVANA KUMAR ...

  1. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. S Roy. Articles written in Bulletin of Materials Science. Volume 25 Issue 6 November 2002 pp 513-515. Improved zinc oxide film for gas sensor applications · S Roy S Basu · More Details Abstract Fulltext PDF. Zinc oxide (ZnO) is a versatile material for different commercial ...

  2. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. DANUTA OLSZEWSKA. Articles written in Bulletin of Materials Science. Volume 41 Issue 1 February 2018 pp 16. Influence of the conditions of a solid-state synthesis anode material Li 4 Ti 5 O 12 on its electrochemical properties of lithium cells · DANUTA OLSZEWSKA ANNA ...

  3. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. ISABEL HERRMANN. Articles written in Bulletin of Materials Science. Volume 41 Issue 1 February 2018 pp 18. Advanced nanofibrous textile-based dressing material for treating chronic wounds · ISABEL HERRMANN EKO SUPRIYANTO SARAVANA KUMAR JAGANATHAN A ...

  4. Progress report chemistry and materials division 1984 January 1 - June 30

    1984-08-01

    During the first half of 1984 work in the Chemistry and Materials Division of Chalk River Nuclear Laboratories concentrated on studies of ion penetration phenomena, surface phenomena, radiation damage, radiochemical analysis, recycle fuel analysis, gamma spectrometry, mass spectrometry of fuels and moderators, analysis of hydrogen in zirconium alloys, burnup analysis, radiolysis, hydrogen isotope separation, hydrogen adsorption, zirconium corrosion, and metal physics studies of zirconium

  5. 49 CFR 176.410 - Division 1.5 materials, ammonium nitrate and ammonium nitrate mixtures.

    2010-10-01

    ... 49 Transportation 2 2010-10-01 2010-10-01 false Division 1.5 materials, ammonium nitrate and ammonium nitrate mixtures. 176.410 Section 176.410 Transportation Other Regulations Relating to... nitrate and ammonium nitrate mixtures. (a) This section prescribes requirements to be observed with...

  6. 49 CFR 174.115 - Loading Division 1.4 (explosive) materials.

    2010-10-01

    ....4 (explosive) materials may be loaded into any closed car in good condition, or into any container car in good condition. Car certificates are not required. Packages of Division 1.4 (explosive... automatic heating or refrigerating machinery with which the truck body, trailer, or container is equipped is...

  7. Environmental Sciences Division annual progress report for period ending September 30, 1994

    1994-01-01

    This progress report summarizes the research and development activities conducted in the Environmental Sciences Division (ESD) of Oak Ridge National Laboratory during fiscal year (FY) 1994, which extended from October 1, 1993, through September 30, 1994. The report is structured to provide descriptions of current activities and accomplishments in each of the division's major organizational units. Following the sections describing the organizational units are sections highlighting ESD Scientific, Technical, and Administrative Achievement awards and listing information necessary to covey the scope of the work in the division. An organizational chart of staff and long-term guests who wee in ESD at the end of FY 1994 is located in the final section of the report

  8. Environmental Sciences Division annual progress report for period ending September 30, 1993

    1994-05-01

    This progress report summarizes the research and development activities conducted in the Environmental Sciences Division (ESD) of Oak Ridge National Laboratory during fiscal year (FY) 1993, which extended from October 1, 1992, through September 30, 1993. The report is structured to provide descriptions of current activities and accomplishments in each of the division's major organizational units. Following the sections describing the organizational units are sections highlighting ESD Scientific, Technical, and Administrative Achievement awards and listing information necessary to convey the scope of the work in the division. An organizational chart of staff and long-term guests who were in ESD and the end of FY 1993 is located in the final section of the report

  9. [Applications of synthetic biology in materials science].

    Zhao, Tianxin; Zhong, Chao

    2017-03-25

    Materials are the basis for human being survival and social development. To keep abreast with the increasing needs from all aspects of human society, there are huge needs in the development of advanced materials as well as high-efficiency but low-cost manufacturing strategies that are both sustainable and tunable. Synthetic biology, a new engineering principle taking gene regulation and engineering design as the core, greatly promotes the development of life sciences. This discipline has also contributed to the development of material sciences and will continuously bring new ideas to future new material design. In this paper, we review recent advances in applications of synthetic biology in material sciences, with the focus on how synthetic biology could enable synthesis of new polymeric biomaterials and inorganic materials, phage display and directed evolution of proteins relevant to materials development, living functional materials, engineered bacteria-regulated artificial photosynthesis system as well as applications of gene circuits for material sciences.

  10. [Lawrence Berkeley Laboratory] Chemical Sciences Division annual report 1991

    1992-09-01

    Summaries are given of research in the following fields: photochemistry of materials in stratosphere, energy transfer and structural studies of molecules on surfaces, laser sources and techniques, crossed molecular beams, molecular interactions, theory of atomic and molecular collision processes, selective photochemistry, photodissociation of free radicals, physical chemistry with emphasis on thermodynamic properties, chemical physics at high photon energies, high-energy atomic physics, atomic physics, high-energy oxidizers and delocalized-electron solids, catalytic hydrogenation of CO, transition metal-catalyzed conversion of CO, NO, H{sub 2}, and organic molecules to fuels and petrochemicals, formation of oxyacids of sulfur from SO{sub 2}, potentially catalytic and conducting organometallics, actinide chemistry, and molecular thermodynamics for phase equilibria in mixtures. Under exploratory R and D funds, the following are discussed: technical evaluation of beamlines and experimental stations for chemical cynamics applications at the ALS synchrotron, and molecular beam threshold time-of-flight spectroscopy of rare gas atoms. Research on normal and superconducting properties of high-{Tc} systems is reported under work for others. (DLC)

  11. [Lawrence Berkeley Laboratory] Chemical Sciences Division annual report 1991

    1992-09-01

    Summaries are given of research in the following fields: photochemistry of materials in stratosphere, energy transfer and structural studies of molecules on surfaces, laser sources and techniques, crossed molecular beams, molecular interactions, theory of atomic and molecular collision processes, selective photochemistry, photodissociation of free radicals, physical chemistry with emphasis on thermodynamic properties, chemical physics at high photon energies, high-energy atomic physics, atomic physics, high-energy oxidizers and delocalized-electron solids, catalytic hydrogenation of CO, transition metal-catalyzed conversion of CO, NO, H[sub 2], and organic molecules to fuels and petrochemicals, formation of oxyacids of sulfur from SO[sub 2], potentially catalytic and conducting organometallics, actinide chemistry, and molecular thermodynamics for phase equilibria in mixtures. Under exploratory R and D funds, the following are discussed: technical evaluation of beamlines and experimental stations for chemical cynamics applications at the ALS synchrotron, and molecular beam threshold time-of-flight spectroscopy of rare gas atoms. Research on normal and superconducting properties of high-[Tc] systems is reported under work for others. (DLC)

  12. Progress report: Health Sciences Division, 1982 April 1 - June 30

    1982-08-01

    Chemical and electrochemical etching parameters for CR-39 plastic are being studied as a function of neutron energy from 0.2 to 14.7 MeV. An improved oven for UV annealing of sensitized TLDs has been built and optimum operating characteristics are being determined. Circuits and components for the reactor stack effluent monitor are being designed. New sensors and data loggers have been installed to measure water and air temperatures, and air velocity profiles, at Perch and Maskinonge Lakes. Measurements of 222 Rn and tritium have been investigated in groundwater discharge from borehole CR22, near Chalk Lake. Measurements of sorption/desorption of 60 Co with sediments from East Swamp have been continued. Elution rates of Pu and Am from columns and associations with particulates have been shown to depend strongly on the redox conditions. In rock fracture filling materials studies the ratios of uranium isotopes ( 234 U/ 238 U) and of thorium to uranium ( 230 Th/ 238 U) together with uranium contents are providing some values, but interpretation remains difficult. Growth rate of bivalve mollusc cultures has been shown to be affected by nutrients to different extents at the control (10 degC) and elevated (20 degC) temperatures. DNA studies of radiation effects continue. A thoron ( 220 Rn)-in-breath monitor has been designed and will be constructed at CRNL. The dose to basal cells of bronchial epithelium from inhalation of long-lived alpha-emitting aerosols has been calculated, and the risk of bronchial cancer from this dose estimated

  13. Progress report: Health Sciences Division, 1983 January 1 - June 30

    1983-09-01

    Electrochemically-etched CR-39 plastic can register protons up to 7 MeV by adjusting pre-etch times. Improving TLD reader sensitivity by using a UV-transmitting light guide has been investigated for both LiF and MgB 4 O 7 :Dy dosimeters. A portable tritium-in-air monitor has been modified to provide compensation against response to noble gases in sampled air. Development of the stack effluent monitor continued with an examination of the relative advantages of sliding shuttles for a sample changer. Relationships between dosimeter reading and critical organ doses and effective dose equivalent have been established by tests with a phantom loaded with dosimeters and exposed in two locations. The relationship of the energy budget of Perch Lake to large scale weather patterns of the area is being investigated in a study with the University of Waterloo. The response of drainage systems to melting, infiltration and/or runoff of winter snowpack is being studied. The integrated mass of 137 Cs in eight lake sediments near CRNL has been found to be much less than total atmospheric fallout between 1955 and 1982. Studies have continued on freshwater molluscs in removing particulates from suspension and sedimenting the material as faecal waste. Distribution measurements of residual bomb tritium in drainage waters from the Gloucester special disposal site have been done to establish a time scale for groundwater movement. Slightly elevated levels of organically-bound 3 H and 14 C were measured in grasses near B and C Waste Management burial trenches. A customer manual describing CRNL's capability to do accurate gas or liquid system pipeline flow measurements using short half-life radiotracers is being prepared. Research continues on non-lethal radiation doses to DNA in a variety of organisms. Experimental protocol for experiments involving radioisotope administration to volunteers have been reviewed and approved

  14. Progress report, Chemistry and Materials Division, October 1 to December 31, 1976

    1977-01-01

    A summary is given of research largely centering around radiation effects on materials, radiation and analytical chemistry, surface studies, and materials science, esp. zirconium base alloys and their problems and properties in nuclear service. (E.C.B.)

  15. Bulletin of Materials Science | Indian Academy of Sciences

    ... India; Department of Physics, Sultan Qaboos University, Muscat, P.O. Box 36, Code 123, Oman; Department of Polymer Science andRubber Technology, Cochin University of Science and Technology, Cochin 682022, India; Department of Materials Science and Nanoengineering, Rice University, Houston, TX 77005, USA ...

  16. Bulletin of Materials Science | Indian Academy of Sciences

    Editorial Board. Bulletin of Materials Science. Editor. Giridhar U. Kulkarni, Centre for Nano and Soft Matter Science, Bengaluru. Associate Editors. Ayan Datta, Indian Association for the Cultivation of Science, Kolkata M. Eswaramoorthy, Jawaharlal Nehru Centre for Advanced Scientific Research, Bengaluru A.K. Ganguli ...

  17. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. T Mirza. Articles written in Bulletin of Materials Science. Volume 23 Issue 5 October 2000 pp 377-382 Glass Ceramics. Preparation and characterization of magnesium–aluminium–silicate glass ceramics · Madhumita Goswami T Mirza A Sarkar Shobha Manikandan Sangeeta ...

  18. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Murali Sastry. Articles written in Bulletin of Materials Science. Volume 23 Issue 3 June 2000 pp 159-163 Nanomaterials. A note on the use of ellipsometry for studying the kinetics of formation of self-assembled monolayers · Murali Sastry · More Details Abstract Fulltext PDF.

  19. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Rajeev Gupta. Articles written in Bulletin of Materials Science. Volume 34 Issue 3 June 2011 pp 447-454. An investigation in InGaO3(ZnO)m pellets as cause of variability in thin film transistor characteristics · Sonachand Adhikari Rajeev Gupta Ashish Garg Deepak.

  20. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Amit Sinha. Articles written in Bulletin of Materials Science. Volume 24 Issue 6 December 2001 pp 653-657 Bioceramics. Development of calcium phosphate based bioceramics · Amit Sinha A Ingle K R Munim S N Vaidya B P Sharma A N Bhisey · More Details Abstract Fulltext ...

  1. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. MURAT UYGUN. Articles written in Bulletin of Materials Science. Volume 39 Issue 2 April 2016 pp 353-359. Hydrophobic nano-carrier for lysozyme adsorption · CANAN ALTUNBAS FULDEN ZEYNEP URAL MURAT UYGUN NESIBE AVCIBASI UGUR AVCIBASI DENIZ AKTAS ...

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    Home; Journals; Bulletin of Materials Science. Ch Sudheer. Articles written in Bulletin of Materials Science. Volume 25 Issue 6 November 2002 pp 545-547. Tellurium purification: various techniques and limitations · D S Prasad Ch Sudheer N R Munirathnam T L Prakash · More Details Abstract Fulltext PDF. Limitations and ...

  3. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. B P Singh. Articles written in Bulletin of Materials Science. Volume 23 Issue 1 February 2000 pp 11-16 Molecular Magnets. Synthesis and magnetic properties of one-dimensional metal oxalate networks as molecular-based magnets · B P Singh B Singh · More Details Abstract ...

  4. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Zhanshuang Li. Articles written in Bulletin of Materials Science. Volume 31 Issue 2 April 2008 pp 193-195 Nanomaterials. Mesoscale organization of CuO nanoslices: Formation of sphere · Jun Wang Shunxiao Zhang Zhanshuang Li Jia You Piaoping Yang Xiaoyan Jing Milin ...

  5. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Shunxiao Zhang. Articles written in Bulletin of Materials Science. Volume 31 Issue 2 April 2008 pp 193-195 Nanomaterials. Mesoscale organization of CuO nanoslices: Formation of sphere · Jun Wang Shunxiao Zhang Zhanshuang Li Jia You Piaoping Yang Xiaoyan Jing Milin ...

  6. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Manoj Kumar. Articles written in Bulletin of Materials Science. Volume 26 Issue 3 April 2003 pp 335-341 Glasses. Optical absorption and fluorescent behaviour of titanium ions in silicate glasses · Manoj Kumar Aman Uniyal A P S Chauhan S P Singh · More Details Abstract ...

  7. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. K Rajendra Babu. Articles written in Bulletin of Materials Science. Volume 24 Issue 2 April 2001 pp 249-252 Crystal Growth. Thermal behaviour of strontium tartrate single crystals grown in gel · M H Rahimkutty K Rajendra Babu K Sreedharan Pillai M R Sudarsana Kumar C M K ...

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    Home; Journals; Bulletin of Materials Science. RITWIK SARKAR. Articles written in Bulletin of Materials Science. Volume 33 Issue 3 June 2010 pp 293-298 Alloys and Steels. Utilization of steel melting electric arc furnace slag for development of vitreous ceramic tiles · Ritwik Sarkar Nar Singh Swapan Kumar Das.

  9. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. K Prasad. Articles written in Bulletin of Materials Science. Volume 27 Issue 6 December 2004 pp 547-553 Glasses and Ceramics. Impedance analysis of Pb2Sb3LaTi5O18 ceramic · C K Suman K Prasad R N P Choudhary · More Details Abstract Fulltext PDF. Polycrystalline ...

  10. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. K Mondal. Articles written in Bulletin of Materials Science. Volume 36 Issue 1 February 2013 pp 51-58. Electrochemical passivation behaviour of nanocrystalline Fe80Si20 coating in borate buffer solution · G Gupta A P Moon K Mondal · More Details Abstract Fulltext PDF.

  11. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. SABRI BAYLAV. Articles written in Bulletin of Materials Science. Volume 41 Issue 2 April 2018 pp 49. Synthesis and characterization of metal ion-imprinted polymers · YASEMIN ISIKVER SABRI BAYLAV · More Details Abstract Fulltext PDF. In this study, ion-imprinted polymeric ...

  12. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. P M Raole. Articles written in Bulletin of Materials Science. Volume 34 Issue 1 February 2011 pp 81-88. Effect of ion beam irradiation on metal particle doped polymer composites · N L Singh Sejal Shah Anjum Qureshi A Tripathi F Singh D K Avasthi P M Raole · More Details ...

  13. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Anjum Qureshi. Articles written in Bulletin of Materials Science. Volume 29 Issue 6 November 2006 pp 605-609. Analysis of organometallics dispersed polymer composite irradiated with oxygen ions · N L Singh Anjum Qureshi A K Rakshit D K Avasthi · More Details Abstract ...

  14. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. M Singh. Articles written in Bulletin of Materials Science. Volume 28 Issue 7 December 2005 pp .... Swift heavy ion irradiation effect on Cu-doped CdS nanocrystals embedded in PMMA · Shweta Agrawal Subodh Srivastava Sumit Kumar S S Sharma B Tripathi M Singh Y K Vijay.

  15. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 31; Issue 1. Pressure induced graft-co-polymerization of acrylonitrile onto Saccharum cilliare fibre and ... Author Affiliations. A S Singha1 Anjali Shama1 Vijay Kumar Thakur1. Material Science Laboratory, National Institute of Technology, Hamirpur 177 005, India ...

  16. Bulletin of Materials Science | Indian Academy of Sciences

    AGH-University of Science and Technology, Faculty of Materials Science and Ceramics, Department of Biomaterials, Al. Mickiewicza 30, 30-059 Krakow, Poland; The Pennsylvania State University, Department of Physics and Center for 2-Dimensional and Layered Materials, 104 Davey Laboratory, University Park, PA ...

  17. Bulletin of Materials Science | Indian Academy of Sciences

    School of Mechanical and Automotive Engineering, Anhui Polytechnic University, Wuhu, Anhui 241000, P.R. China; Anhui Provincial Laboratory of High Performance Nonferrous Metals Material, Wuhu, Anhui 241000, P.R. China; Department of Materials Science and Engineering, University of Science and Technology of ...

  18. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Y Arthoba Naik. Articles written in Bulletin of Materials Science. Volume 28 Issue 5 August 2005 pp 495-501 Thin Films. A new condensation product for zinc plating from non-cyanide alkaline bath · Y Arthoba Naik T V Venkatesha · More Details Abstract Fulltext PDF.

  19. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Dinesh Kumar. Articles written in Bulletin of Materials Science. Volume 25 Issue 6 November 2002 pp 549-551. Semiconductor applications of plasma immersion ion implantation technology · Mukesh Kumar Rajkumar Dinesh Kumar P J George · More Details Abstract Fulltext ...

  20. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. R Murugesan. Articles written in Bulletin of Materials Science. Volume 25 Issue 7 December 2002 pp 613-618 Polymers. Metal oxalate complexes as novel inorganic dopants: Studies on their effect on conducting polyaniline · R Murugesan E Subramanian · More Details ...

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    Home; Journals; Bulletin of Materials Science. S Gopalakrishnan. Articles written in Bulletin of Materials Science. Volume 27 Issue 3 June 2004 pp 235-241 Polymers. Synthesis, mechanical, thermal and chemical properties of polyurethanes based on cardanol · C V Mythili A Malar Retna S Gopalakrishnan · More Details ...

  2. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. E Subramanian. Articles written in Bulletin of Materials Science. Volume 25 Issue 7 December 2002 pp 613-618 Polymers. Metal oxalate complexes as novel inorganic dopants: Studies on their effect on conducting polyaniline · R Murugesan E Subramanian · More Details ...

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    Home; Journals; Bulletin of Materials Science. HUA WANG. Articles written in Bulletin of Materials Science. Volume 36 Issue 3 June 2013 pp 389-393. Effects of Bi doping on dielectric and ferroelectric properties of PLBZT ferroelectric thin films synthesized by sol–gel processing · Hua Wang Li Liu Ji-Wen Xu Chang-Lai Yuan ...

  4. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Raji George. Articles written in Bulletin of Materials Science. Volume 30 Issue 2 April 2007 pp 183-185 Nanomaterials. Synthesis, characterization and gas sensitivity of MoO3 nanoparticles · Arnab Ganguly Raji George · More Details Abstract Fulltext PDF. Nanoparticles of ...

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    Home; Journals; Bulletin of Materials Science. V Vinmathi. Articles written in Bulletin of Materials Science. Volume 38 Issue 3 June 2015 pp 625-628. A green and facile approach for the synthesis of silver nanoparticles using aqueous extract of Ailanthus excelsa leaves, evaluation of its antibacterial and anticancer efficacy.

  6. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. R Bajpai. Articles written in Bulletin of Materials Science. Volume 25 Issue 1 February 2002 pp 21-23 Mechanical Properties. Surface modification on PMMA : PVDF polyblend: hardening under chemical environment · R Bajpai V Mishra Pragyesh Agrawal S C Datt · More Details ...

  7. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. A K Bajpai. Articles written in Bulletin of Materials Science. Volume 28 Issue 6 October 2005 pp 529-534 Review—Polymers. Morphological, thermal and annealed microhardness characterization of gelatin based interpenetrating networks of polyacrylonitrile: A hard biopolymer.

  8. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Nitai Debnath. Articles written in Bulletin of Materials Science. Volume 37 Issue 2 April 2014 pp 199-206. Ciprofloxacin conjugated zinc oxide nanoparticle: A camouflage towards multidrug resistant bacteria · Prasun Patra Shouvik Mitra Nitai Debnath Panchanan Pramanik ...

  9. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. K B R Varma. Articles written in Bulletin of Materials Science. Volume 30 Issue 6 December 2007 pp 567-570 Ceramics and Glasses. Microwave synthesis and sintering characteristics of CaCu3Ti4O12 · P Thomas L N Sathapathy K Dwarakanath K B R Varma · More Details ...

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    Home; Journals; Bulletin of Materials Science. Arunkumar Lagashetty. Articles written in Bulletin of Materials Science. Volume 27 Issue 6 December 2004 pp 491-495 Nanomaterials. Adsorption study of Pb ions on nanosized SnO2, synthesized by self-propagating combustion reaction · Arunkumar Lagashetty A ...

  11. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. TRAN NGOC TUYEN. Articles written in Bulletin of Materials Science. Volume 41 Issue 1 February 2018 pp 6. Lead ions removal from aqueous solution using modified carbon nanotubes · NGUYEN DUC VU QUYEN TRAN NGOC TUYEN DINH QUANG KHIEU HO VAN MINH ...

  12. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. N J KARALE. Articles written in Bulletin of Materials Science. Volume 40 Issue 7 December 2017 pp 1335-1345. Chemical synthesis and characterization of nano-sized rare-earth ruthenium pyrochlore compounds Ln 2 Ru 2 O 7 (Ln = rare earth) · R A PAWAR A K NIKUMBH ...

  13. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Manoj Komath. Articles written in Bulletin of Materials Science. Volume 23 Issue 2 April 2000 pp 135-140 Biomaterials. On the development of an apatitic calcium phosphate bone cement · Manoj Komath H K Varma R Sivakumar · More Details Abstract Fulltext PDF.

  14. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Le Minh Duc. Articles written in Bulletin of Materials Science. Volume 36 Issue 5 October 2013 pp 779-788. Study on photocatalysis of TiO2 nanotubes prepared by methanol-thermal synthesis at low temperature · Chau Thanh Nam Wein-Duo Yang Le Minh Duc · More Details ...

  15. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. K Veera Brahmam. Articles written in Bulletin of Materials Science. Volume 28 Issue 5 August 2005 pp 411-414 Single Crystals. Crystal growth and reflectivity studies of Zn1–MnTe crystals · K Veera Brahmam D Raja Reddy B K Reddy · More Details Abstract Fulltext PDF.

  16. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Wein-Duo Yang. Articles written in Bulletin of Materials Science. Volume 36 Issue 5 October 2013 pp 779-788. Study on photocatalysis of TiO2 nanotubes prepared by methanol-thermal synthesis at low temperature · Chau Thanh Nam Wein-Duo Yang Le Minh Duc.

  17. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Neelotpal Sen Sarma. Articles written in Bulletin of Materials Science. Volume 37 Issue 7 December 2014 pp 1613-1624. Enhancement of proton conductivity of sulfonated polystyrene membrane prepared by plasma polymerization process · Bhabesh Kumar Nath Aziz Khan ...

  18. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Md HABIB. Articles written in Bulletin of Materials Science. Volume 41 Issue 2 April 2018 pp 56. Tuning the BODIPY core for its potential use in DSSC: a quantum chemical approach · NARENDRA NATH GHOSH Md HABIB ANUP PRAMANIK PRANAB SARKAR SOUGATA PAL.

  19. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Zhang Lei. Articles written in Bulletin of Materials Science. Volume 34 Issue 1 February 2011 pp 161-167. Characterization on strength and toughness of welded joint for Q550 steel · Jiang Qinglei Li Yajiang Wang Juan Zhang Lei · More Details Abstract Fulltext PDF. Q550 high ...

  20. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. B L Kalsotra. Articles written in Bulletin of Materials Science. Volume 34 Issue 4 July 2011 pp 843-851. Synthesis and characterization of composites of mixed oxides of iron and neodymium in polymer matrix of aniline–formaldehyde · Sajdha H N Sheikh B L Kalsotra N Kumar S ...

  1. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. B N Dev. Articles written in Bulletin of Materials Science. Volume 29 Issue 2 April 2006 pp 101-105 Polymers. Proton microbeam irradiation effects on PtBA polymer · J Kamila S Roy K Bhattacharjee B Rout B N Dev R Guico J Wang A W Haberl P Ayyub P V Satyam.

  2. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. T Bhimasankaram. Articles written in Bulletin of Materials Science. Volume 23 Issue 6 December 2000 pp 483-489 Oxide Ceramics. Effect of HIPing on conductivity and impedance measurements of DyBi5Fe2Ti3O18 ceramics · N V Prasad G Prasad Mahendra Kumar S V ...

  3. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. REGINA C SO. Articles written in Bulletin of Materials Science. Volume 40 Issue 6 October 2017 pp 1179-1187. Preparation, characterization of chitosan/bamboo charcoal/poly(methacrylate) composite beads · DOROTHY CAMINOS-PERUELO WEI-CHIEH WANG ...

  4. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. F Wang. Articles written in Bulletin of Materials Science. Volume 34 Issue 5 August 2011 pp 1033-1037. Synthesis of Mn-doped CeO2 nanorods and their application as humidity sensors · C H Hu C H Xia F Wang M Zhou P F Yin X Y Han · More Details Abstract Fulltext PDF.

  5. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. S Pal. Articles written in Bulletin of Materials Science. Volume 24 Issue 4 August 2001 pp 415-420 Biomaterials. A novel bio-inorganic bone implant containing deglued bone, chitosan and gelatin · G Saraswathy S Pal C Rose T P Sastry · More Details Abstract Fulltext PDF.

  6. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Thotapalli P Sastry. Articles written in Bulletin of Materials Science. Volume 34 Issue 1 February 2011 pp 177-181. Preparation and characterization of a novel bone graft composite containing bone ash and egg shell powder · Gunasekaran Krithiga Thotapalli P Sastry.

  7. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Annie John. Articles written in Bulletin of Materials Science. Volume 25 Issue 2 April 2002 pp 141-154 Biomaterials. Bone growth response with porous hydroxyapatite granules in a critical sized lapine tibial-defect model · Annie John S Abiraman H K Varma T V Kumari P R ...

  8. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. LIFANG ZHANG. Articles written in Bulletin of Materials Science. Volume 38 Issue 3 June 2015 pp 811-816. Fabrication and characterization of PDLLA/pyrite composite bone scaffold for osteoblast culture · Lifang Zhang Yanyan Zheng Chengdong Xiong · More Details Abstract ...

  9. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. S S Samal. Articles written in Bulletin of Materials Science. Volume 30 Issue 4 August 2007 pp 379-386 Polymers. Carbon nanotube reinforced polymer composites—A state of the art · S Bal S S Samal · More Details Abstract Fulltext PDF. Because of their high mechanical ...

  10. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. N K PANDEY. Articles written in Bulletin of Materials Science. Volume 40 Issue 2 April 2017 pp 253-262. Electrical and optical properties of ZnO–WO 3 nanocomposite and its application as a solid-state humidity sensor · VANDNA SHAKYA N K PANDEY SUNEET KUMAR ...

  11. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. P K Parhi. Articles written in Bulletin of Materials Science. Volume 24 Issue 2 April 2001 pp 143-149. Failure analysis of multiple delaminated composite plates due to bending and impact · P K Parhi S K Bhattacharyya P K Sinha · More Details Abstract Fulltext PDF. The present ...

  12. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Shweta Agrawal. Articles written in Bulletin of Materials Science. Volume 32 Issue 6 December 2009 pp 569-573 Thin Films and Nanomatter. Swift heavy ion irradiation effect on Cu-doped CdS nanocrystals embedded in PMMA · Shweta Agrawal Subodh Srivastava Sumit ...

  13. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Sandeep Arya. Articles written in Bulletin of Materials Science. Volume 36 Issue 4 August 2013 pp 535-539. Synthesis of copper telluride nanowires using template-based electrodeposition method as chemical sensor · Sandeep Arya Saleem Khan Suresh Kumar Rajnikant ...

  14. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. SURESH KUMAR. Articles written in Bulletin of Materials Science. Volume 35 Issue 5 October 2012 pp 787-794. Electrical transport and EPR investigations: A comparative study for d.c. conduction mechanism in monovalent and multivalent ions doped polyaniline.

  15. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. A S Prakash. Articles written in Bulletin of Materials Science. Volume 29 Issue 4 August 2006 pp 339-345 Ceramics and Glasses. Solution-combustion synthesis of Bi1–LnO1.5 (Ln = Y and La–Yb) oxide ion conductors · Manjunath B Bellakki A S Prakash C Shivakumara M S ...

  16. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Uma Maheswar Rao. Articles written in Bulletin of Materials Science. Volume 24 Issue 6 December 2001 pp 587-593 Surface Studies. Investigation of surface modifications in ethylene propylene diene monomer (EPDM) rubber due to tracking under a.c. and d.c. voltages.

  17. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Jiuxing Zhang. Articles written in Bulletin of Materials Science. Volume 34 Issue 4 July 2011 pp 825-828. Magnetocaloric effect of Gd5Si2Ge2 alloys in low magnetic field · Hong Zeng Chunjiang Kuang Jiuxing Zhang Ming Yue · More Details Abstract Fulltext PDF.

  18. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. H N Sheikh. Articles written in Bulletin of Materials Science. Volume 34 Issue 4 July 2011 pp 843-851. Synthesis and characterization of composites of mixed oxides of iron and neodymium in polymer matrix of aniline–formaldehyde · Sajdha H N Sheikh B L Kalsotra N Kumar S ...

  19. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. P P PRADYUMNAN. Articles written in Bulletin of Materials Science. Volume 40 Issue 5 September 2017 pp 1007-1011. Structural and magnetic studies on copper succinate dihydrate single crystals · M P BINITHA P P PRADYUMNAN · More Details Abstract Fulltext PDF.

  20. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Rani Joseph. Articles written in Bulletin of Materials Science. Volume 26 Issue 3 April 2003 pp 343-348 Thin Films. Optimization of pH and direct imaging conditions of complexed methylene blue sensitized poly(vinyl chloride) films · M Ushamani N G Leenadeenja K Sreekumar ...

  1. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. R AHMED. Articles written in Bulletin of Materials Science. Volume 40 Issue 6 October 2017 pp 1105-1110. Structural, elastic, optoelectronic and magnetic properties of CdHo 2 S 4 spinel: a first-principle study · I HATRAF O MERABIHA T SEDDIK H BALTACHE R KHENATA R ...

  2. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. MONICA KATIYAR. Articles written in Bulletin of Materials Science. Volume 36 Issue 4 August 2013 pp 653-660. Processing and performance of organic insulators as a gate layer in organic thin film transistors fabricated on polyethylene terephthalate substrate · Saumen Mandal ...

  3. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. K R Rajesh. Articles written in Bulletin of Materials Science. Volume 37 Issue 1 February 2014 pp 95-99. High mobility polymer gated organic field effect transistor using zinc phthalocyanine · K R Rajesh V Kannan M R Kim Y S Chae J K Rhee · More Details Abstract Fulltext PDF.

  4. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. D K Avasthi. Articles written in Bulletin of Materials Science. Volume 27 Issue 3 June 2004 pp 263-267 Polymers. Electrical properties of ion irradiated polypropylene films · N L Singh Anita Sharma V Shrinet A K Rakshit D K Avasthi · More Details Abstract Fulltext PDF. The effect ...

  5. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. V Shrinet. Articles written in Bulletin of Materials Science. Volume 27 Issue 3 June 2004 pp 263-267 Polymers. Electrical properties of ion irradiated polypropylene films · N L Singh Anita Sharma V Shrinet A K Rakshit D K Avasthi · More Details Abstract Fulltext PDF. The effect of ...

  6. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. A K Rakshit. Articles written in Bulletin of Materials Science. Volume 27 Issue 3 June 2004 pp 263-267 Polymers. Electrical properties of ion irradiated polypropylene films · N L Singh Anita Sharma V Shrinet A K Rakshit D K Avasthi · More Details Abstract Fulltext PDF. The effect ...

  7. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. K Chandra. Articles written in Bulletin of Materials Science. Volume 30 Issue 4 August 2007 pp 309-314 Biomaterials. Characteristics of porous zirconia coated with hydroxyapatite as human bones · V V Narulkar S Prakash K Chandra · More Details Abstract Fulltext PDF.

  8. Bulletin of Materials Science | Indian Academy of Sciences

    Austrian Centre of Competence for Tribology, Viktor Kaplan-Straße 2, A 2700 Wiener Neustadt, Austria; Institute of Industrial Electronics and Material Science, Vienna University of Technology, A 1040 Vienna, Austria; Institute of Material Science and Testing, Vienna University of Technology, A 1040 Vienna, Austria; Institute ...

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    Home; Journals; Bulletin of Materials Science. XIAOWEN ZHANG. Articles written in Bulletin of Materials Science. Volume 37 Issue 4 June 2014 pp 895-902. Structural evolution, electrical and optical properties of AZO films deposited by sputtering ultra-high density target · Jiwen Xu Zupei Yang Hua Wang Xiaowen Zhang.

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    Home; Journals; Bulletin of Materials Science. KANNAIYAN DINAKARAN. Articles written in Bulletin of Materials Science. Volume 40 Issue 7 December 2017 pp 1455-1462. A sensitive optical sensor based on DNA-labelled Si@SiO 2 core–shell nanoparticle for the detection of Hg 2 + ions in environmental water samples.

  11. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. V Bhat. Articles written in Bulletin of Materials Science. Volume 23 Issue 4 August 2000 pp 295-299 Alloys. A test for diffusional coherency strain hypothesis in the discontinuous precipitation in Mg–Al alloy · K T Kashyap C Ramachandra V Bhat B Chatterji · More Details Abstract ...

  12. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. AGNIESZKA SOBCZAK-KUPIEC. Articles written in Bulletin of Materials Science. Volume 36 Issue 4 August 2013 pp 755-764. Effect of calcination conditions of pork bone sludge on behaviour of hydroxyapatite in simulated body fluid · Agnieszka Sobczak-Kupiec Zbigniew ...

  13. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. SUDHANSHU CHOUDHARY. Articles written in Bulletin of Materials Science. Volume 35 Issue 5 October 2012 pp 713-718. Theoretical study on effect of radial and axial deformation on electron transport properties in a semiconducting Si–C nanotube · Sudhanshu Choudhary ...

  14. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Amarnath. Articles written in Bulletin of Materials Science. Volume 26 Issue 4 June 2003 pp 435-439 Biomaterials. Effect of heat treatments on the hydrogen embrittlement susceptibility of API X-65 grade line-pipe steel · G Ananta Nagu Amarnath T K G Namboodhiri.

  15. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. KADARKARAI MURUGAN. Articles written in Bulletin of Materials Science. Volume 40 Issue 7 December 2017 pp 1455-1462. A sensitive optical sensor based on DNA-labelled Si@SiO 2 core–shell nanoparticle for the detection of Hg 2 + ions in environmental water samples.

  16. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. YONG J IANG. Articles written in Bulletin of Materials Science. Volume 40 Issue 6 October 2017 pp 1255-1261. Molecular dynamics study on the relaxation properties of bilayered graphene with defects · WEI ZHANG JIU-REN YIN PING ZHANG YAN-HUAI DING YONG J IANG.

  17. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. B Swarna Latha. Articles written in Bulletin of Materials Science. Volume 37 Issue 4 June 2014 pp 883-888. Structural, spectroscopic and electrochemical study of V substituted LiTi2(PO4)3 solid electrolyte for lithium-ion batteries · A Venkateswara Rao V Veeraiah A V Prasada ...

  18. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. B V Radhakrishna Bhat. Articles written in Bulletin of Materials Science. Volume 23 Issue 2 April 2000 pp 109-117 Composites. Optimization of processing parameters for making alumina–partially stabilized zirconia laminated composites · S Deb B V Radhakrishna Bhat.

  19. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. S K Biswas. Articles written in Bulletin of Materials Science. Volume 33 Issue 3 June 2010 pp 251-255 Polymers. Effect of substrate roughness on growth of diamond by hot filament CVD · Awadesh K Mallik S R Binu L N Satapathy Chandrabhas Narayana Md Motin Seikh S A ...

  20. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Jadu Samuel. Articles written in Bulletin of Materials Science. Volume 36 Issue 6 November 2013 pp 981-987. Green chemical incorporation of sulphate into polyoxoanions of molybdenum to nano level · Jadu Samuel S Hari Prasad M K Sreedhar · More Details Abstract Fulltext ...

  1. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. T K Bhattacharya. Articles written in Bulletin of Materials Science. Volume 26 Issue 7 December 2003 pp 703-706 Cements. Solid state sintering of lime in presence of La2O3 and CeO2 · T K Bhattacharya A Ghosh H S Tripathi S K Das · More Details Abstract Fulltext PDF.

  2. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Dong Zhang. Articles written in Bulletin of Materials Science. Volume 34 Issue 1 February 2011 pp 25-28. Aqueous colloids of graphene oxide nanosheets by exfoliation of graphite oxide without ultrasonication · Tian-You Zhang Dong Zhang · More Details Abstract Fulltext PDF.

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    Home; Journals; Bulletin of Materials Science. V Ganesan. Articles written in Bulletin of Materials Science. Volume 28 Issue 6 October 2005 pp 609-615 Thin Films. Structural morphology of amorphous conducting carbon film · P N Vishwakarma V Prasad S V Subramanyam V Ganesan · More Details Abstract Fulltext PDF.

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    Home; Journals; Bulletin of Materials Science. M Mandal. Articles written in Bulletin of Materials Science. Volume 37 Issue 4 June 2014 pp 743-752. Porous copper template from partially spark plasma-sintered Cu–Zn aggregate via dezincification · M Mandal D Singh Gouthama B S Murty S Sangal K Mondal · More Details ...

  5. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. D K Kharat. Articles written in Bulletin of Materials Science. Volume 28 Issue 5 August 2005 pp 453-455 Ceramics and Glasses. Characterization and microstructure of porous lead zirconate titanate ceramics · B Praveenkumar H H Kumar D K Kharat · More Details Abstract ...

  6. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Hui Shen. Articles written in Bulletin of Materials Science. Volume 30 Issue 2 April 2007 pp 101-104 Single Crystals. Piezoelectric properties of Sr3Ga2Ge4O14 single crystals · Anhua Wu Jiayue Xu Juan Zhou Hui Shen · More Details Abstract Fulltext PDF. A new piezoelectric ...

  7. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Anhua Wu. Articles written in Bulletin of Materials Science. Volume 27 Issue 4 August 2004 pp 333-336 Crystal Growth. Bridgman growth and defects of Nd : Sr3Ga2Ge4O14 laser crystals · Jiaxuan Ding Anhua Wu Jiayue Xu · More Details Abstract Fulltext PDF.

  8. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. G Prasad. Articles written in Bulletin of Materials Science. Volume 23 Issue 5 October 2000 pp 431-437 High T c Superconductors. Studies on electrical properties of SrBi4Ti4–3Fe4O15 · N Venkat Ramulu G Prasad S V Suryanarayana T Bhima Sankaram · More Details ...

  9. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. S Muthulakshmi. Articles written in Bulletin of Materials Science. Volume 37 Issue 7 December 2014 pp 1575-1582. Effect of temperature on the AC impedance of protein and carbohydrate biopolymers · S Muthulakshmi S Iyyapushpam D Pathinettam Padiyan · More Details ...

  10. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. A K Sahu. Articles written in Bulletin of Materials Science. Volume 32 Issue 3 June 2009 pp 285-294. Nafion and modified-Nafion membranes for polymer electrolyte fuel cells: An overview · A K Sahu S Pitchumani P Sridhar A K Shukla · More Details Abstract Fulltext PDF.

  11. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. N L Singh. Articles written in Bulletin of Materials Science. Volume 27 Issue 3 June 2004 pp 263-267 Polymers. Electrical properties of ion irradiated polypropylene films · N L Singh Anita Sharma V Shrinet A K Rakshit D K Avasthi · More Details Abstract Fulltext PDF. The effect ...

  12. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Sejal Shah. Articles written in Bulletin of Materials Science. Volume 30 Issue 5 October 2007 pp 477-480 Polymers. Study of microhardness and electrical properties of proton irradiated polyethersulfone (PES) · Nilam Shah Dolly Singh Sejal Shah Anjum Qureshi N L Singh K P ...

  13. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. S Prasannakumar. Articles written in Bulletin of Materials Science. Volume 24 Issue 5 October 2001 pp 535-538 Polymers. Interpenetrating polymer networks based on polyol modified castor oil polyurethane and poly(2-hydroxyethylmethacrylate): Synthesis, chemical, ...

  14. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. K V Shah. Articles written in Bulletin of Materials Science. Volume 26 Issue 7 December 2003 pp 715-720 Glasses and Ceramics. Preparation and studies of some thermal, mechanical and optical properties of Al2O3(1 – )NaPO3 glass system · K V Shah V Sudarsan M ...

  15. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. Ganesh Sanjeev. Articles written in Bulletin of Materials Science. Volume 33 Issue 3 June 2010 pp 191-196 Thin Films and Nanomatter. Dielectric properties of electron irradiated PbZrO3 thin films · Shetty Aparna V M Jali Ganesh Sanjeev Jayanta Parui S B Krupanidhi.

  16. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. LING YANG. Articles written in Bulletin of Materials Science. Volume 36 Issue 3 June 2013 pp 389-393. Effects of Bi doping on dielectric and ferroelectric properties of PLBZT ferroelectric thin films synthesized by sol–gel processing · Hua Wang Li Liu Ji-Wen Xu Chang-Lai Yuan ...

  17. Qi Liu - Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. QI LIU. Articles written in Bulletin of Materials Science. Volume 34 Issue 2 April 2011 pp 183-189. Study of structural transformations and phases formation upon calcination of Zn–Ni–Al hydrotalcite nanosheets · Zhanshuang Li Yanchao Song Jun Wang Qi Liu Piaoping Yang ...

  18. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. A S Singha. Articles written in Bulletin of Materials Science. Volume 31 Issue 1 February 2008 pp 7-13 Polymers. Pressure induced graft-co-polymerization of acrylonitrile onto Saccharum cilliare fibre and evaluation of some properties of grafted fibre · A S Singha Anjali Shama ...

  19. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. L C GUPTA. Articles written in Bulletin of Materials Science. Volume 40 Issue 6 October 2017 pp 1121-1125. High-pressure studies of superconductivity in BiO 0.75 F 0.25 BiS 2 · ZEBA HAQUE GOHIL S THAKUR GANESAN KALAI SELVAN SONACHALAM ARUMUGAM L C ...

  20. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. H P Sachin. Articles written in Bulletin of Materials Science. Volume 30 Issue 1 February 2007 pp 57-63 Electrochemistry. Polynitroaniline as brightener for zinc–nickel alloy plating from non-cyanide sulphate bath · H P Sachin Ganesha Achary Y Arthoba Naik T V Venkatesha.

  1. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. M Petrič. Articles written in Bulletin of Materials Science. Volume 34 Issue 1 February 2011 pp 113-119. Performance of waterborne acrylic surface coatings on wood impregnated with Cu-ethanolamine preservatives · M Humar M Pavlič D Žlindra M Tomažič M Petrič.

  2. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. M Hafez. Articles written in Bulletin of Materials Science. Volume 33 Issue 2 April 2010 pp 149-155 Polymers. Influence of granular strontium chloride as additives on some electrical and mechanical properties for pure polyvinyl alcohol · A B Elaydy M Hafez · More Details ...

  3. Progress report Health Sciences Division - 1984 January 1 to June 30

    1984-09-01

    This progress report contains a topical summary of major research in the Health Sciences Division. Separate reports are included for each of the following branches: Health Physics, Environmental Research, Radiation Biology, Biomedical Research and Medical. Some of the main areas of interest discussed are research goals, radiation levels, biological end points, assessment of carcinogenic and genetic hazards, research on radiation effects. Practical applications of research are highlighted

  4. Program report for FY 1980. Atmospheric and Geophysical Sciences Division of the Physics Department

    Knox, J.B.; Orphan, R.C.

    1981-02-01

    The FY 1980 research program conducted by the Atmospheric and Geophysical Sciences Division and supporting segments at Lawrence Livermore National Laboratory is reviewed briefly. The work is divided into five research themes: advanced modeling, regional modeling and assessments, CO 2 and climate research, stratospheric research, and special projects. Specific projects are described, and significant findings of the work are indicated. Unique numerical modeling capabilities in use and under development are described

  5. Environmental Sciences Division. Annual progress report for period ending September 30, 1975

    1976-08-01

    The energy crisis and creation of ERDA were dominant factors affecting the activities of the Environmental Sciences Division during the past year. Efforts primarily centered on coal conversion effluents, aquatic effects from power plants, terrestrial modeling of both radioactive and nonradioactive waste transport, mineral cycling, forest management, and information handling codes and techniques. A bibliography of publications, presentation, these, and other professional activities is included. (PCS)

  6. Perceptions of Crop Science Instructional Materials.

    Elkins, D. M.

    1994-01-01

    A number of crop science instructors have indicated that there is a shortage of quality, current crop/plant science teaching materials, particularly textbooks. A survey instrument was developed to solicit information from teachers about the use and adequacy of textbooks, laboratory manuals, and videotapes in crop/plant science instruction. (LZ)

  7. Materials Science and the Problem of Garbage

    McPherson, Heather

    2016-01-01

    Materials science--the science of stuff--has made our lives better by making it possible for manufacturers to supply us with products. Students have misconceptions about materials use. Many may think using bottled water, for example, is harmless because they recycle the plastic empties, but they fail to consider the resources and energy used to…

  8. Developments in reactor materials science methodology

    Tsykanov, V.A.; Ivanov, V.B.

    1987-01-01

    Problems related to organization of investigations into reactor materials science are considered. Currently the efficiency and reliability of nuclear power units are largely determined by the fact, how correctly and quickly conclusions concerning the parameters of designs and materials worked out for a long time in reactor cores, are made. To increase information value of materials science investigations it is necessary to create a uniform system, providing for solving methodical, technical and organizational problems. Peculiarities of the current state of reactor material science are analysed and recommendations on constructing an optimal scheme of investigations and data flow interconnection are given

  9. Perspectives on Materials Science in 3D

    Juul Jensen, Dorte

    2012-01-01

    Materials characterization in 3D has opened a new era in materials science, which is discussed in this paper. The original motivations and visions behind the development of one of the new 3D techniques, namely the three dimensional x-ray diffraction (3DXRD) method, are presented and the route...... to its implementation is described. The present status of materials science in 3D is illustrated by examples related to recrystallization. Finally, challenges and suggestions for the future success for 3D Materials Science relating to hardware evolution, data analysis, data exchange and modeling...

  10. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. G P Nayaka. Articles written in Bulletin of Materials Science. Volume 37 Issue 3 May 2014 pp 705-711. Structural, electrical and electrochemical behaviours of LiNi0.4M0.1Mn1.5O4 ( = Al, Bi) as cathode material for Li-ion batteries · G P Nayaka J Manjanna K C Anjaneya P ...

  11. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. K C Anjaneya. Articles written in Bulletin of Materials Science. Volume 37 Issue 3 May 2014 pp 705-711. Structural, electrical and electrochemical behaviours of LiNi0.4M0.1Mn1.5O4 ( = Al, Bi) as cathode material for Li-ion batteries · G P Nayaka J Manjanna K C Anjaneya P ...

  12. The Science of Smart Materials

    Boohan, Richard

    2011-01-01

    Over the last few decades, smart materials have become increasingly important in the design of products. Essentially, a smart material is one that has been designed to respond to a stimulus, such as a change in temperature or magnetic field, in a particular and useful way. This article looks at a range of smart materials that are relatively…

  13. Radiation materials science. V. 7

    Zelenskij, V.F.

    1990-01-01

    This volume includes the papers of the international conference on radiation materials in Alushta, Ukraine in May 1990. The main topics are: basic research in radiation damage physics, a study of the structural materials for reactor cores; irradiation effect on reactor vessel, fuel, super- and semiconductor materials; investigation damage research methods

  14. Radiation materials science. V. 6

    Zelenskij, V.F.

    1990-01-01

    This volume includes the papers of the international conference on radiation materials in Alushta, Ukraine in May 1990. The main topics are: basic research in radiation damage physics, a study of the structural materials for reactor cores; irradiation effect on reactor vessel, fuel, super- and semiconductor materials; investigation damage research methods

  15. Division of the momentum of electromagnetic waves in linear media into electromagnetic and material parts.

    Saldanha, Pablo L

    2010-02-01

    It is proposed a natural and consistent division of the momentum of electromagnetic waves in linear, non-dispersive and non-absorptive dielectric and magnetic media into material and electromagnetic parts. The material part is calculated using directly the Lorentz force law and the electromagnetic momentum density has the form epsilon(0)E x B, without an explicit dependence on the properties of the media. The consistency of the treatment is verified through the obtention of a correct momentum balance equation in many examples and showing the compatibility of the division with the Einstein's theory of relativity by the use of a gedanken experiment. An experimental prediction for the radiation pressure on mirrors immersed in linear dielectric and magnetic media is also made.

  16. Progress report 1979 July 01 to September 30, Health Sciences Division

    1979-12-01

    In September 1979, the Biology and Health Physics Division and the Medical Division were amalgamated to form the Health Sciences Division. This is the first progress report of the new division. A new TLD reader for semi-automatic handling of individual TLD chips has been commissioned. As high range radiation detectors for spent fuel monitoring, optical photo-diodes show performance similar to that of silicon rectifiers. Studies continue on the use of water-permeable plastic membranes in tritium monitoring, particularly where it is important to distinguish between 3 H in elemental form and combined as water. The first of a series of radionuclide injection experiments was made in the sand aquifer near Perch Lake. These experiments are to develop methods for studying radionuclide transport in fractured rock. Investigations of soil and groundwater in the vicinity of waste management areas have shown that tritium is the only radionuclide present in significant quantities. Radiation damage to DNA and subsequent repair is being studied by observing both somatic and genetic effcts. Rare hereditary human diseases that present clinical or laboratory features indicative of defects in the DNA repair mechanism are being studied. Work on various metabolic models that describe retention and distribution of radionuclides in humans has continued with emphasis on tritium as HT, carbon as CO2, and compounds of the alkaline earth and actinide elements. Committed effective dose equivalent conversion factors for infants and adults have been calculated for 380 classes of compounds of radionuclide and intake routes, for 65 elements. (OT)

  17. DOE fundamentals handbook: Material science

    1993-01-01

    This handbook was developed to assist nuclear facility operating contractors in providing operators, maintenance personnel, and the technical staff with the necessary fundamentals training to ensure a basic understanding of the structure and properties of metals. This volume contains the following modules: thermal shock (thermal stress, pressurized thermal shock), brittle fracture (mechanism, minimum pressurization-temperature curves, heatup/cooldown rate limits), and plant materials (properties considered when selecting materials, fuel materials, cladding and reflectors, control materials, nuclear reactor core problems, plant material problems, atomic displacement due to irradiation, thermal and displacement spikes due to irradiation, neutron capture effect, radiation effects in organic compounds, reactor use of aluminum)

  18. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 30; Issue 4 ... Microwave materials; ceramic dielectric resonators; polytitanates; co-precipitation. ... hypotheses viz. diffusion, high surface and nucleation energy, potential barrier, non-stoichiometry etc as critical factors limiting formation of 2 : 9 as single-phase material.

  19. Bulletin of Materials Science | Indian Academy of Sciences

    This generated great interest in the development of these heteroatom structured materials through different processing routes. ... of Materials Science, Sardar Patel University, Vallabh Vidyanagar 388 120, India; Materials and Structures Laboratory, Tokyo Institute of Technology, Nagatsuta, Yokohama 226, Japan ...

  20. Progress report - physical sciences TASCC division 1990 July 01 - December 31

    1991-05-01

    A completely new administrative structure of AECL Research was implemented on 1990 July 1. All of the basic physics programs, together with accelerator physics, radiation applications and most of the chemistry programs of AECL, have been placed in a new organizational unit called Physical Sciences. This unit also includes the management of the National Fusion Program. The research programs of Physical Sciences are grouped into three divisions: Chemistry, Physics and TASCC. Progress in each division will henceforth be reported on a twice-yearly basis. This report is the first of the new series to be issued by the TASCC Division. During the period covered by this report, the operation of the superconducting cyclotron has matured considerably, with over 30 accelerated ion beams more-or-less routinely available for a wide variety of nuclear physics experiments. The TASCC team, together with all the engineers, trades-people and other staff members who contributed to the design, constructed and commissioning of the Tandem Accelerator Superconducting Cyclotron facility, are to be heartily congratulated on bringing it to its present highly successful state in an unusually short period of time. In conjunction with our many outside collaborators, we are now engaged on exciting experiments in several areas of nuclear physics research, as reported in the following pages. We are well on the way to the establishment of a truly National Centre for Nuclear Physics research in Canada

  1. Progress report - physical sciences - physics division 1990 July 01 - December 31

    1991-05-01

    A completely new administrative structure of AECL Research was implemented on 1990 July 1. All of the basic physics programs, together with accelerator physics, radiation applications and most of the chemistry programs of AECL, have been placed in a new organizational unit called Physical Sciences. This unit also includes the management of the National Fusion Program. The research programs of Physical Sciences are grouped into three divisions: Chemistry, Physics and TASCC. Progress in each division will henceforth be reported on a twice-yearly basis. This report is the first of the new series to be issued by the Physics Division. Of special note within the period covered by this report was the successful acceleration of over 75 mA of protons to 600 keV in RFQ1 making it the highest current RFQ in the world. Our electron accelerator expertise has been recognized by the award of one of the R and D 100 awards for the IMPELA (10 MeV 50 kW) machine. Considerable activity was associated with bringing the new dual beam neutron spectrometer DUALSPEC to completion. This instrument has been jointly funded by AECL and NSERC through McMaster University and will be a central component of the national neutron scattering facility at NRU in the 1990's. A major effort was made with the writing of a Project Definition Document for installation of a cold neutron source at the most opportune time

  2. Crystal growth and computational materials science

    Jayakumar, S.; Ravindran, P.; Arun Kumar, R.; Sudarshan, C.

    2012-01-01

    The proceedings of the international conference on advanced materials discusses the advances being made in the area of single crystals, their preparation and device development from these crystals and details of the progress that is taking place in the computational field relating to materials science. Computational materials science makes use of advanced simulation tools and computer interfaces to develop a virtual platform which can provide a model for real-time experiments. This book includes selected papers in topics of crystal growth and computational materials science. We are confident that the new concepts and results presented will stimulate and enhance progress of research on crystal growth and computational materials science. Papers relevant to INIS are indexed separately

  3. The materiality of materials and artefacts used in science classrooms

    Cowie, Bronwen; Otrel-Cass, Kathrin; Moreland, Judy

    Material objects and artefacts receive limited attention in science education (Roehl, 2012) though they shape emerging interactions. This is surprising given science has material and a social dimensions (Pickering, 1995) whereby new knowledge develops as a consensus explanation of natural phenomena...... that is mediated significantly through materials and instruments used. Here we outline the ways teachers deployed material objects and artefacts by identifying their materiality to provide scenarios and resources (Roth, 2005) for interactions. Theoretical framework We use Ingold's (2011) distinction between...... materials as natural objects in this world and artefacts as manmade objects. We are aware that in a classroom material objects and artefacts shape, and are shaped by classroom practice through the way they selectively present scientific explanations. However, materials and artefacts have no intrinsic...

  4. Materials Science of High-Temperature Superconducting Coated Conductor Materials

    Beasley, M. R

    2007-01-01

    This program was broadly focused on the materials science of high temperature superconducting coated conductors, which are of potential interest for application in electric power systems of interest to the Air Force...

  5. Department of Energy Mathematical, Information, and Computational Sciences Division: High Performance Computing and Communications Program

    NONE

    1996-11-01

    This document is intended to serve two purposes. Its first purpose is that of a program status report of the considerable progress that the Department of Energy (DOE) has made since 1993, the time of the last such report (DOE/ER-0536, The DOE Program in HPCC), toward achieving the goals of the High Performance Computing and Communications (HPCC) Program. The second purpose is that of a summary report of the many research programs administered by the Mathematical, Information, and Computational Sciences (MICS) Division of the Office of Energy Research under the auspices of the HPCC Program and to provide, wherever relevant, easy access to pertinent information about MICS-Division activities via universal resource locators (URLs) on the World Wide Web (WWW).

  6. Department of Energy: MICS (Mathematical Information, and Computational Sciences Division). High performance computing and communications program

    NONE

    1996-06-01

    This document is intended to serve two purposes. Its first purpose is that of a program status report of the considerable progress that the Department of Energy (DOE) has made since 1993, the time of the last such report (DOE/ER-0536, {open_quotes}The DOE Program in HPCC{close_quotes}), toward achieving the goals of the High Performance Computing and Communications (HPCC) Program. The second purpose is that of a summary report of the many research programs administered by the Mathematical, Information, and Computational Sciences (MICS) Division of the Office of Energy Research under the auspices of the HPCC Program and to provide, wherever relevant, easy access to pertinent information about MICS-Division activities via universal resource locators (URLs) on the World Wide Web (WWW). The information pointed to by the URL is updated frequently, and the interested reader is urged to access the WWW for the latest information.

  7. Bulletin of Materials Science | News

    Author Affiliations. Yasser B Saddeek1 Moenis A Azooz2 Amr Bakr Saddek3. Faculty of Science, Physics Department, Al-Azhar University, Assiut, Egypt; Glass Research Department, National Research Center, Dokki, Cairo, Egypt; Faculty of Engineering, Civil Engineering Department, Beni-Suef University, Beni-Suef, Egypt ...

  8. Bulletin of Materials Science | Indian Academy of Sciences

    Author Affiliations. Ankur Jain1 R K Jain1 Shivani Agarwal1 I P Jain1. Material Science Laboratory, Centre for Non-Conventional Energy Resources, 14, Vigyan Bhawan, University of Rajasthan, Jaipur 302 004, India ...

  9. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 33; Issue 1. Structure, optical and thermal decomposition characters of LDPE graft copolymers synthesized by gamma irradiation ... Keywords. Gamma irradiation; graft copolymerization; spectroscopic analysis; XRD; kinetics of thermal decomposition; activation energy.

  10. Bulletin of Materials Science | Indian Academy of Sciences

    The Bulletin of Materials Science began in the year 1979. ... one of the world's leading interactive databases of high quality STM journals, book series, books, reference works and online archives collection. ... Sadashivanagar, P.B. No. 8005 ...

  11. Bulletin of Materials Science | Indian Academy of Sciences

    , Romania; 'Alexandru Ioan Cuza' University, Research Center on Advanced Materials and Technologies, Sciences Department, 11 Carol I Blvd., 700506 Iasi, Romania; Photonics Laboratory, Angers University, 2, Bd. Lavoisier, 49045 Angers, ...

  12. Bulletin of Materials Science | Indian Academy of Sciences

    Author Affiliations. Xiaoming Liao1 Hongyang Zhu1 Guangfu Yin1 Zhongbing Huang1 Yadong Yao1 Xianchun Chen1. College of Materials Science and Engineering, Sichuan University, Chengdu 610064, P.R. of China ...

  13. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 39; Issue 7 ... pulse electrodeposition with ultrasound agitation from nickelWatts-type bath. ... The results showed that wear resistance increased with increase in duty cycle and frequency.

  14. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 34; Issue 4 ... has a dielectric anomaly of ferroelectric to paraelectric type at 198°C, and exhibits ... that the compound has negative temperature coefficient of resistance (NTCR) behaviour.

  15. Materials irradiation research in neutron science

    Noda, Kenji; Oyama, Yukio [Japan Atomic Energy Research Inst., Tokai, Ibaraki (Japan). Tokai Research Establishment

    1997-11-01

    Materials irradiation researches are planned in Neutron Science Research Program. A materials irradiation facility has been conceived as one of facilities in the concept of Neutron Science Research Center at JAERI. The neutron irradiation field of the facility is characterized by high flux of spallation neutrons with very wide energy range up to several hundred MeV, good accessibility to the irradiation field, good controllability of irradiation conditions, etc. Extensive use of such a materials irradiation facility is expected for fundamental materials irradiation researches and R and D of nuclear energy systems such as accelerator-driven incineration plant for long-lifetime nuclear waste. In this paper, outline concept of the materials irradiation facility, characteristics of the irradiation field, preliminary technical evaluation of target to generate spallation neutrons, and materials researches expected for Neutron Science Research program are described. (author)

  16. Bulletin of Materials Science | Indian Academy of Sciences

    Laboratory of Materials, Processes, Environment and Quality, Cady Ayyed University, National School of Applied Sciences, 63, 46000 Safi, Morocco; LMPHE (URAC 12), Faculty of Science, Mohammed V-Agdal University, Rabat, Morocco; Institut Néel, CNRS et Université Joseph Fourier, BP 166, F-38042 Grenoble Cedex ...

  17. Bulletin of Materials Science | Indian Academy of Sciences

    Author Affiliations. U D Lanke1 2. Metallurgical Engineering and Materials Science Department, Indian Institute of Technology, Mumbai 400 076, India; School of Chemical and Physical Sciences, Victoria University of Wellington, P.O. Box 600, Wellington, New Zealand ...

  18. Bulletin of Materials Science | Indian Academy of Sciences

    Author Affiliations. G KOROTCENKOV1 V BRINZARI2 B K CHO1. School of Material Science and Engineering, Gwangju Institute of Science and Technology, Gwangju 500712, Republic of Korea; Department of Theoretical Physics, State University of Moldova, Chisinau, Republic of Moldova ...

  19. Bulletin of Materials Science | Indian Academy of Sciences

    MOHAMMOD AMINUZZAMAN1 LIM POH YING1 WEE-SHENOG GOH1 AKIRA WATANABE2. Department of Chemical Science, Faculty of Science, Universiti Tunku Abdul Rahman (UTAR), Perak Campus, Jalan Universiti, Bandar Barat, 31900 Kampar, Malaysia; Institute of Multidisciplinary Research for Advanced Materials ...

  20. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 23; Issue 6. Resistance to freezing and thawing of mortar specimens made from sulphoaluminate–belite cement ... Author Affiliations. I Janotka1 L' Krajèi1. Institute of Construction and Architecture of the Slovak Academy of Sciences, Bratislava, Slovak Republic ...

  1. Nuclear technology and materials science

    Olander, D.R.

    1992-01-01

    Current and expected problems in the materials of nuclear technology are reviewed. In the fuel elements of LWRs, cladding waterside corrosion, secondary hydriding and pellet-cladding interaction may be significant impediments to extended burnup. In the fuel, fission gas release remains a key issue. Materials issues in the structural alloys of the primary system include stress-corrosion cracking of steel, corrosion of steam generator tubing and pressurized thermal shock of the reactor vessel. Prediction of core behavior in severe accidents requires basic data and models for fuel liquefaction, aerosol formation, fission product transport and core-concrete interaction. Materials questions in nuclear waste management and fusion technology are briefly reviewed. (author)

  2. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. LI-XIA YANG. Articles written in Bulletin of Materials Science. Volume 34 Issue 2 April 2011 pp 233-237. Shape control synthesis of low-dimensional calcium sulfate · Li-Xia Yang Yan-Feng Meng Ping Yin Ying-Xia Yang Ying-Ying Tang Lai-Fen Qin · More Details Abstract ...

  3. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. S K Singh. Articles written in Bulletin of Materials Science. Volume 25 Issue 6 November 2002 pp 561-563. Synthesis of SiC from rice husk in a plasma reactor · S K Singh B C Mohanty S Basu · More Details Abstract Fulltext PDF. A new route for production of SiC from rice husk ...

  4. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science. C H Xia. Articles written in Bulletin of Materials Science. Volume 34 Issue 5 August 2011 pp 1033-1037. Synthesis of Mn-doped CeO2 nanorods and their application as humidity sensors · C H Hu C H Xia F Wang M Zhou P F Yin X Y Han · More Details Abstract Fulltext PDF.

  5. Bulletin of Materials Science | News

    scale grain growth of two nanocrystalline materials, Pd81Zr19 and RuAl. ... Structural, optical and electrical properties of chemically deposited copper selenide films .... Effect of substitution of titanium by magnesium and niobium on structure and ...

  6. Classroom Demonstrations in Materials Science/Engineering.

    Hirschhorn, J. S.; And Others

    Examples are given of demonstrations used at the University of Wisconsin in a materials science course for nontechnical students. Topics include crystal models, thermal properties, light, and corrosion. (MLH)

  7. Computational materials science: Nanoscale plasticity

    Jacobsen, Karsten Wedel; Schiøtz, Jakob

    2002-01-01

    How does plastic deformation of polycrystalline materials with grain sizes less than 100 nm look at the atomic scale? A large-scale molecular dynamics simulation of nanocrystalline alluminium reveals some surprising behaviour.......How does plastic deformation of polycrystalline materials with grain sizes less than 100 nm look at the atomic scale? A large-scale molecular dynamics simulation of nanocrystalline alluminium reveals some surprising behaviour....

  8. Materials science for nuclear detection

    Peurrung, Anthony

    2008-01-01

    The increasing importance of nuclear detection technology has led to a variety of research efforts that seek to accelerate the discovery and development of useful new radiation detection materials. These efforts aim to improve our understanding of how these materials perform, develop formalized discovery tools, and enable rapid and effective performance characterization. We provide an overview of these efforts along with an introduction to the history, physics, and taxonomy of radiation detec...

  9. MSRR Rack Materials Science Research Rack

    Reagan, Shawn

    2017-01-01

    The Materials Science Research Rack (MSRR) is a research facility developed under a cooperative research agreement between NASA and the European Space Agency (ESA) for materials science investigations on the International Space Station (ISS). The MSRR is managed at the Marshall Space Flight Center (MSFC) in Huntsville, AL. The MSRR facility subsystems were manufactured by Teledyne Brown Engineering (TBE) and integrated with the ESA/EADS-Astrium developed Materials Science Laboratory (MSL) at the MSFC Space Station Integration and Test Facility (SSITF) as part of the Systems Development Operations Support (SDOS) contract. MSRR was launched on STS-128 in August 2009, and is currently installed in the U. S. Destiny Laboratory Module on the ISS. Materials science is an integral part of developing new, safer, stronger, more durable materials for use throughout everyday life. The goal of studying materials processing in space is to develop a better understanding of the chemical and physical mechanisms involved, and how they differ in the microgravity environment of space. To that end, the MSRR accommodates advanced investigations in the microgravity environment of the ISS for basic materials science research in areas such as solidification of metals and alloys. MSRR allows for the study of a variety of materials including metals, ceramics, semiconductor crystals, and glasses. Materials science research benefits from the microgravity environment of space, where the researcher can better isolate chemical and thermal properties of materials from the effects of gravity. With this knowledge, reliable predictions can be made about the conditions required on Earth to achieve improved materials. MSRR is a highly automated facility with a modular design capable of supporting multiple types of investigations. Currently the NASA-provided Rack Support Subsystem provides services (power, thermal control, vacuum access, and command and data handling) to the ESA developed Materials

  10. Progress report, Chemistry and Materials Division, October 1 to December 31, 1975

    1976-01-01

    Interim research results are reported in solid state science (ion penetration, electron microscopy, radiation damage and metal physics, nuclear methods of analysis), general chemistry (analytical chemistry, hydrogen-water exchange, radioactivity measurements, electrochemistry), physical chemistry (radiation and isotope chemistry), materials science (surface chemistry and metal physics), and university research (deuterium exchange and zirconium alloy properties). (E.C.B.)

  11. Materials Sciences programs, fiscal year 1978: Office of Basic Energy Services

    1978-09-01

    A compilation and index are provided of the the DOE Materials Sciences Division programs. This compilation is intended for use by administrators, managers, and scientists to help coordinate research and as an aid in selecting new programs. The report is divided into Sections A and B, listing all the projects, Section C, a summary of funding levels, and Section D, an index

  12. Proceedings of computational methods in materials science

    Mark, J.E. Glicksman, M.E.; Marsh, S.P.

    1992-01-01

    The Symposium on which this volume is based was conceived as a timely expression of some of the fast-paced developments occurring throughout materials science and engineering. It focuses particularly on those involving modern computational methods applied to model and predict the response of materials under a diverse range of physico-chemical conditions. The current easy access of many materials scientists in industry, government laboratories, and academe to high-performance computers has opened many new vistas for predicting the behavior of complex materials under realistic conditions. Some have even argued that modern computational methods in materials science and engineering are literally redefining the bounds of our knowledge from which we predict structure-property relationships, perhaps forever changing the historically descriptive character of the science and much of the engineering

  13. Editorial: Defining materials science: A vision from APL Materials

    Judith MacManus-Driscoll

    2014-07-01

    Full Text Available These are exciting times for materials science—a field which is growing more rapidly than any other physical science discipline. More than ever, the field is providing the vital link between science and engineering, between pure and applied. But what is the subject's definition and why is the field ballooning? I address these questions in the context of how APL Materials intends to play a role in advancing this important field. My introspective focus arises as we approach the first year anniversary of APL Materials.

  14. Forty years of the Institute for Nuclear Research (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 22 December 2010)

    2011-01-01

    On 22 December 2010, the scientific session of the Physical Sciences Division of the Russian Academy of Sciences (RAS), devoted to the 40th anniversary of the Institute for Nuclear Research, RAS, was held at the Institute for Nuclear Research, RAS in Troitsk. The agenda of the session announced on the website www.gpad.ac.ru of the RAS Physical Sciences Division listed the following reports: (1) Matveev V A (Institute for Nuclear Research, RAS, Moscow) ''Introductory word''; (2) Gavrin V N (Institute for Nuclear Research, RAS, Moscow) ''Contribution of the SAGE results to the understanding of solar physics and neutrino physics''; (3) Domogatsky G V (Institute for Nuclear Research, RAS, Moscow) ''Baikal neutrino experiment''; (4) Tkachev I I (Institute for Nuclear Research, RAS, Moscow) ''Observation of the Greisen - Zatsepin - Kuz'min effect at the Telescope Array Observatory''; (5) Kudenko Yu G (Institute for Nuclear Research, RAS, Moscow) ''Neutrino T2K experiment: the first results''; (6) Sadykov R A (Institute for Nuclear Research, RAS, Moscow) ''Fields of study of condensed media at the neutron facility at the INR, RAS''; (7) Zhuikov B L (Institute for Nuclear Research, RAS, Moscow) ''Production of isotopes at the INR, RAS: reality and prospects''. The papers written on the base of reports 1-5 and 7 are published below. In addition, the paper ''High-power diode-pumped alkali lasers'' by A M Shalagin is published. The paper is based on the report presented at the scientific session of the General Assembly of the Physical Sciences Division, RAS (13 December 2010) devoted to the 50th anniversary of the laser, the main materials of the session having been published in Usp. Fiz. Nauk 181 (8) 867 (2011) [Phys. Usp. 54 837 (2011)]. . Institute for Nuclear Research of the Russian Academy of Sciences turns 40, V A Matveev Physics-Uspekhi, 2011, Volume 54, Number 9, Pages 939-940 . The Russian-American gallium experiment SAGE, V N Gavrin Physics-Uspekhi, 2011, Volume 54

  15. Bulletin of Materials Science | News

    pp 235-241 Polymers. Synthesis, mechanical, thermal and chemical properties of ... pp 243-249 Polymers. Terpolymerization of 2-ethoxy ethylmethacrylate, styrene ... showed reduction in g value. pp 251-262 Polymers. Analysis of surface degradation of high density polyethylene (HDPE) insulation material due to tracking.

  16. Bulletin of Materials Science | News

    Synthesis and characterization of fluorophore attached silver nanoparticles ... by X-ray diffraction, differential thermal analysis, thermogravimetric analysis, Fourier ..... Infrared spectra, Raman laser, XRD, DSC/TGA and SEM investigations on the ..... composite materials based on polyaniline–polyethylene glycol–CdS system.

  17. Bulletin of Materials Science | News

    Mullite retains the usual orthorhombic habit of sillimanite. Rounded to sub rounded zirconia dispersed within the mullite matrix of the sample ZA is noticed. pp 221-225 Sol-gel Materials. Role of binder in the synthesis of titania membrane · K S Seshadri M Selvaraj R Kesava Moorthy K Varatharajan M P Srinivasan K B Lal.

  18. Introduction into modern materials science

    Brostow, W.

    1984-01-01

    This book is divided into the following headings: Preliminary remarks on mathematics, statistical mechanics, intermolecular interactions; gases and fluids - general fundamentals, liquids and solutions, crystals, metals and alloys, non-metallic solids, composites; thermodynamic properties, mechanical properties, electric conductivity, dielectric and magnetic properties, surface effects, and materials testing - an outline. (orig./MM) With 128 figs., 21 tabs [de

  19. Bulletin of Materials Science | News

    Studies on relative catalytic efficiencies of zinc and aluminium on nucleation of ... Production of boron carbide powder by carbothermal synthesis of gel material .... Studies on CdIn2O4 derived from CdIn2S4 prepared by flux method ... and thermally stimulated discharge conductivity (TSDC) study in polymer thin films.

  20. Bulletin of Materials Science | News

    ... metal oxides in the process of chloride induced corrosion of steel reinforcement ... Paper pulp waste—A new source of raw material for the synthesis of a porous .... Utilization of mixed pond ash in integrated steel plant for manufacturing ...

  1. Bulletin of Materials Science | News

    Department of Metal and Materials Engineering, Gangneung-Wonju National University, Gangneung 210 702, Korea; Graduate School of Green Energy Technology, Chungnam National University, Daejeon 305 764, Korea; Department of Civil Engineering, Gangneung-Wonju National University, Gangneung 210 702, ...

  2. Bulletin of Materials Science | News

    deposition and annealing · G Ranga Rao .... Fine structure at the diffusion welded interface of Fe3Al/Q235 dissimilar materials · Wang Juan ... and Steels. Effect of zirconium addition on the recrystallization behaviour of a commercial Al–Cu–Mg alloy.

  3. Synchrotron radiation in material science

    Zanotto, E.D.

    1983-01-01

    A brief review on the several experimental techniques (XRD, SAXS, EXAFS, IRRS, etc...) which, utilizing of synchrotron radiation can be applied in glass structural studies, is presented. The major part of these techniques can be also used for studies of other materials such as polymers, metals, etc... (L.C.) [pt

  4. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 32; Issue 5 ... of CdTe nanoparticles before and after transfer from liquid phase to polystyrene ... Catalytic synthesis of ZnO nanorods on patterned silicon wafer—An optimum material for gas .... Hot-rolled, warm-rolled and heat treated alloys were examined using optical ...

  5. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 40; Issue 5. Electro-optical properties, decomposition pathways and the hydrostatic pressure-dependent behaviours of a double-cation hydrogen storage material of Al 3 Li 4 (BH 4 ) 13. MEHMET SIMSEK. Volume 40 Issue 5 September 2017 pp 907-915 ...

  6. Bulletin of Materials Science | Indian Academy of Sciences

    Articles written in Bulletin of Materials Science. Volume 27 Issue 5 October 2004 pp 417-420 Nuclear Related Materials. Irradiation of large area Mylar membrane and characterization of ... Effect of ion beam irradiation on metal particle doped polymer composites · N L Singh Sejal Shah Anjum Qureshi A Tripathi F Singh D K ...

  7. Bulletin of Materials Science | Indian Academy of Sciences

    Author Affiliations. Wang Juan1 Li Yajiang1 Wu Huiqiang1 Ren Jiangwei1. Key Lab of Liquid Structure and Heredity of Materials, Ministry of Education, School of Materials Science and Engineering, Shandong University, Jinan 250061, P.R. China ...

  8. Bulletin of Materials Science | Indian Academy of Sciences

    Key Lab for Green Processing and Functionalization of New Textile Materials, Ministry of Education, Wuhan Textile University, Wuhan 430073, P.R. China; State Key Laboratory of Material Processing and Die and Mould Technology, Huazhong University of Science and Technology, Wuhan 430074, P.R. China; Zhuxi ...

  9. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 33; Issue 4 ... Permittivity; polarization effects; strontium tartrate; thermal properties; dielectric properties. ... It is explained that crystallographic change due to polymorphic phase transition may be occurring in the material, besides the change due to loss of water ...

  10. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 23; Issue 3. Optimization of growth of InGaAs/InP quantum wells using photoluminescence and secondary ion mass spectrometry. S Bhunia P Banerji T K Chaudhuri A R Haldar D N Bose Y Aparna M B Chettri B R Chakraborty. Semiconducting Materials Volume 23 ...

  11. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 33; Issue 1. Dispersion and reinforcing mechanism of carbon nanotubes in epoxy nanocomposites. Smrutisikha Bal ... Author Affiliations. Smrutisikha Bal1. Department of Metallurgical and Materials Engineering, National Institute of Technology, Rourkela 769 008, India ...

  12. Bulletin of Materials Science | Indian Academy of Sciences

    The crystallization, magnetic, mechanical and corrosion behaviour were studied for the prepared materials as a function of quenching rate from liquid to the solid state. Higher ... National Metallurgical Laboratory, Jamshedpur 831 007, India; Materials Science Centre, Indian Institute of Technology, Kharagpur 721 302, India ...

  13. Bulletin of Materials Science | Indian Academy of Sciences

    Author Affiliations. Sanjay Panwar1 D B Goel2 O P Pandey1. School of Physics and Materials Science, Thapar Institute of Engineering & Technology, Patiala 147 004, India; Department of Metallurgical and Materials Engineering, Indian Institute of Technology Roorkee, Roorkee 247 667, India ...

  14. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 39; Issue 1. Preparation of new thermoluminescent material ( 100 − x )B 2 O 3 –xLi 2 O: Cu 2 + for sensing and detection of radiation. Zeid A Alothman Tansir Ahamad Mu Naushad Saad M Alshehri. Volume 39 Issue 1 February 2016 pp 331-336 ...

  15. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 34; Issue 6 ... by microwave route and nature of anatase–rutile phase transition in nano TiO2 .... properties of AgPb10SbTe12 prepared by high pressure method .... the crystal field strength around Mn(V) such that a blue colour results for materials with small values of .

  16. Bulletin of Materials Science | Indian Academy of Sciences

    School of Chemical and Materials Engineering, National University of Science and Technology, H/12 Islamabad, Pakistan; Austrian Institute of Technology GmbH, Advanced Materials & Aerospace Technologies, A-2444 Seibersdorf, Austria; Centre of Electrochemical Surface Technology, A-2700 Wiener Neustadt, Austria ...

  17. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 31; Issue 6 .... modified with 4–12% 3,3′-bis(maleimidophenyl) phenylphosphine oxide and cured ... Study of effect of composition, irradiation and quenching on ionic ... Application of magnetron sputtering for producing bioactive ceramic coatings on implant materials.

  18. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 35; Issue 4. CuO/TiO2 nanocrystals grown on graphene as visible-light responsive photocatalytic hybrid materials. Yuan Fang Rijing Wang Guohua Jiang He Jin Yin Wang Xinke Sun Sheng Wang Tao Wang. Volume 35 Issue 4 August 2012 pp 495-499 ...

  19. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 24; Issue 6. Tailoring magnetic and dielectric properties of rubber ferrite composites containing mixed ferrites. M R Anantharaman K A Malini S Sindhu E M Mohammed S K Date S D Kulkarni P A Joy Philip Kurian. Magnetic Materials Volume 24 Issue 6 December 2001 ...

  20. Bulletin of Materials Science | Indian Academy of Sciences

    Author Affiliations. Xiuqiang Li1 Dong Zhang1 Peiying Zhu1 Chao Yang1. Key Laboratory of Advanced Civil Engineering Materials, Ministry of Education, College of Materials Science and Engineering, Tongji University, 4800 CaoAn Road, Shanghai 200092, China ...

  1. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 23; Issue 4. Phase analysis and dielectric properties of ceramics in PbO–MgO–ZnO–Nb2O5 system: A comparative study of materials obtained by ceramic and molten salt synthesis routes. M Thirumal A K Ganguli. Ceramics Volume 23 Issue 4 August 2000 pp 255-261 ...

  2. Bulletin of Materials Science | Indian Academy of Sciences

    Materials Chemistry Laboratory, Department of Materials Science, Gulbarga University, Gulbarga 585 106, India; Veeco-India Nanotechnology Laboratory, Jawaharlal Nehru Centre for Advanced Scientific Research, Jakkur, Bangalore 560 064, India; R&D Centre Premier Explosives Pvt. Ltd., Hyderabad 500 015, India ...

  3. Life sciences flight experiments program, life sciences project division, procurement quality provisions

    House, G.

    1980-01-01

    Methods are defined for implementing quality assurance policy and requirements for life sciences laboratory equipment, experimental hardware, integration and test support equipment, and integrated payloads.

  4. Material science and neutron scattering

    1983-01-01

    Neutron scattering experiments complete and extend the condensed matter studies made with X and gamma rays. Then story show a permanent evolution of the instrumentation, methods and experimental techniques to improve the result quality. This is more especially important as neutron sources are weaker than photon and electron sources. Progress in this research domain is due, in most part, to discovery and development of materials for the different measurement device components [fr

  5. DOE fundamentals handbook: Material science

    1993-01-01

    This handbook was developed to assist nuclear facility operating contractors in providing operators, maintenance personnel, and the technical staff with the necessary fundamentals training to ensure a basic understanding of the structure and properties of metals. This volume contains the two modules: structure of metals (bonding, common lattic types, grain structure/boundary, polymorphis, alloys, imperfections in metals) and properties of metals (stress, strain, Young modulus, stress-strain relation, physical properties, working of metals, corrosion, hydrogen embrittlement, tritium/material compatibility)

  6. Graduate student theses supported by DOE`s Environmental Sciences Division

    Cushman, Robert M. [Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States); Parra, Bobbi M. [Dept. of Energy, Germantown, MD (United States). Environmental Sciences Division; comps.

    1995-07-01

    This report provides complete bibliographic citations, abstracts, and keywords for 212 doctoral and master`s theses supported fully or partly by the U.S. Department of Energy`s Environmental Sciences Division (and its predecessors) in the following areas: Atmospheric Sciences; Marine Transport; Terrestrial Transport; Ecosystems Function and Response; Carbon, Climate, and Vegetation; Information; Computer Hardware, Advanced Mathematics, and Model Physics (CHAMMP); Atmospheric Radiation Measurement (ARM); Oceans; National Institute for Global Environmental Change (NIGEC); Unmanned Aerial Vehicles (UAV); Integrated Assessment; Graduate Fellowships for Global Change; and Quantitative Links. Information on the major professor, department, principal investigator, and program area is given for each abstract. Indexes are provided for major professor, university, principal investigator, program area, and keywords. This bibliography is also available in various machine-readable formats (ASCII text file, WordPerfect{reg_sign} files, and PAPYRUS{trademark} files).

  7. Los Alamos Life Sciences Division's biomedical and environmental research programs. Progress report, January-December 1980

    Holland, L.M.; Stafford, C.G.; Bolen, S.K. (comps.)

    1981-09-01

    Highlights of research progress accomplished in the Life Sciences Division during the year ending December 1980 are summarized. Reports from the following groups are included: Toxicology, Biophysics, Genetics; Environmental Pathology, Organic Chemistry, and Environmental Sciences. Individual abstracts have been prepared for 46 items for inclusion in the Energy Data Base. (RJC)

  8. Nuclear Science Division annual report, October 1, 1984-September 30, 1985

    Mahoney, J.

    1986-09-01

    This report summarizes the activities of the Nuclear Science Division during the period October 1, 1984 to September 30, 1985. As in previous years, experimental research has for the most part been carried out using three local accelerators, the Bevalac, the SuperHILAC and the 88-Inch Cyclotron. However, during this time, preparations began for a new generation of relativistic heavy-ion experiments at CERN. The Nuclear Science Division is involved in three major experiments at CERN and several smaller ones. The report is divided into 5 sections. Part I describes the research programs and operations, and Part II contains condensations of experimental papers arranged roughly according to program and in order of increasing energy, without any further subdivisions. Part III contains condensations of theoretical papers, again ordered according to program but in order of decreasing energy. Improvements and innovations in instrumentation and in experimental or analytical techniques are presented in Part IV. Part V consists of appendices, the first listing publications by author for this period, in which the LBL report number only is given for papers that have not yet appeared in journals; the second contains abstracts of PhD theses awarded during this period; and the third gives the titles and speakers of the NSD Monday seminars, the Bevatron Research Meetings and the theory seminars that were given during the report period. The last appendix is an author index for this report

  9. Nuclear Science Division annual report, October 1, 1984-September 30, 1985

    Mahoney, J. (ed.)

    1986-09-01

    This report summarizes the activities of the Nuclear Science Division during the period October 1, 1984 to September 30, 1985. As in previous years, experimental research has for the most part been carried out using three local accelerators, the Bevalac, the SuperHILAC and the 88-Inch Cyclotron. However, during this time, preparations began for a new generation of relativistic heavy-ion experiments at CERN. The Nuclear Science Division is involved in three major experiments at CERN and several smaller ones. The report is divided into 5 sections. Part I describes the research programs and operations, and Part II contains condensations of experimental papers arranged roughly according to program and in order of increasing energy, without any further subdivisions. Part III contains condensations of theoretical papers, again ordered according to program but in order of decreasing energy. Improvements and innovations in instrumentation and in experimental or analytical techniques are presented in Part IV. Part V consists of appendices, the first listing publications by author for this period, in which the LBL report number only is given for papers that have not yet appeared in journals; the second contains abstracts of PhD theses awarded during this period; and the third gives the titles and speakers of the NSD Monday seminars, the Bevatron Research Meetings and the theory seminars that were given during the report period. The last appendix is an author index for this report.

  10. Overview of NASA's Microgravity Materials Science Program

    Downey, James Patton

    2012-01-01

    The microgravity materials program was nearly eliminated in the middle of the aughts due to budget constraints. Hardware developments were eliminated. Some investigators with experiments that could be performed using ISS partner hardware received continued funding. Partnerships were established between US investigators and ESA science teams for several investigations. ESA conducted peer reviews on the proposals of various science teams as part of an ESA AO process. Assuming he or she was part of a science team that was selected by the ESA process, a US investigator would submit a proposal to NASA for grant funding to support their part of the science team effort. In a similar manner, a US materials investigator (Dr. Rohit Trivedi) is working as a part of a CNES selected science team. As funding began to increase another seven materials investigators were selected in 2010 through an NRA mechanism to perform research related to development of Materials Science Research Rack investigations. One of these has since been converted to a Glovebox investigation.

  11. Materials Science and Technology Teachers Handbook

    Wieda, Karen J.; Schweiger, Michael J.; Bliss, Mary; Pitman, Stan G.; Eschbach, Eugene A.

    2008-09-04

    The Materials Science and Technology (MST) Handbook was developed by Pacific Northwest National Laboratory, in Richland, Washington, under support from the U.S. Department of Energy. Many individuals have been involved in writing and reviewing materials for this project since it began at Richland High School in 1986, including contributions from educators at the Northwest Regional Education Laboratory, Central Washington University, the University of Washington, teachers from Northwest Schools, and science and education personnel at Pacific Northwest National Laboratory. Support for its development was also provided by the U.S. Department of Education. This introductory course combines the academic disciplines of chemistry, physics, and engineering to create a materials science and technology curriculum. The course covers the fundamentals of ceramics, glass, metals, polymers and composites. Designed to appeal to a broad range of students, the course combines hands-on activities, demonstrations and long term student project descriptions. The basic philosophy of the course is for students to observe, experiment, record, question, seek additional information, and, through creative and insightful thinking, solve problems related to materials science and technology. The MST Teacher Handbook contains a course description, philosophy, student learning objectives, and instructional approach and processes. Science and technology teachers can collaborate to build the course from their own interests, strengths, and experience while incorporating existing school and community resources. The course is intended to meet local educational requirements for technology, vocational and science education.

  12. Density functional theory in materials science.

    Neugebauer, Jörg; Hickel, Tilmann

    2013-09-01

    Materials science is a highly interdisciplinary field. It is devoted to the understanding of the relationship between (a) fundamental physical and chemical properties governing processes at the atomistic scale with (b) typically macroscopic properties required of materials in engineering applications. For many materials, this relationship is not only determined by chemical composition, but strongly governed by microstructure. The latter is a consequence of carefully selected process conditions (e.g., mechanical forming and annealing in metallurgy or epitaxial growth in semiconductor technology). A key task of computational materials science is to unravel the often hidden composition-structure-property relationships using computational techniques. The present paper does not aim to give a complete review of all aspects of materials science. Rather, we will present the key concepts underlying the computation of selected material properties and discuss the major classes of materials to which they are applied. Specifically, our focus will be on methods used to describe single or polycrystalline bulk materials of semiconductor, metal or ceramic form.

  13. Material Science Experiments on Mir

    Kroes, Roger L.

    1999-01-01

    This paper describes the microgravity materials experiments carried out on the Shuttle/Mir program. There were six experiments, all of which investigated some aspect of diffusivity in liquid melts. The Liquid Metal Diffusion (LMD) experiment investigated the diffusivity of molten Indium samples at 185 C using a radioactive tracer, In-114m. By monitoring two different gamma ray energies (190 keV and 24 keV) emitted by the samples it was possible to measure independently the diffusion rates in the bulk and at the surface of the samples. The Queens University Experiment in Liquid Diffusion (QUELD) was the furnace facility used to process 213 samples for the five other experiments. These experiments investigated the diffusion, ripening, crystal growth, and glass formation in metal, semiconductor, and glass samples. This facility had the capability to process samples in an isothermal or gradient configuration for varying periods of time at temperatures up to 900 C. Both the LMD and the QUELD furnaces were mounted on the Microgravity Isolation Mount (MIM) which provided isolation from g-jitter. All the microgravity experiments were supported by the Space Acceleration Measurement System (SAMS); a three head three axes acceleration monitoring system which measured and recorded the acceleration environment.

  14. A Diversity of Divisions: Tracing the History of the Demarcation between the Sciences and the Humanities.

    Bouterse, Jeroen; Karstens, Bart

    2015-06-01

    Throughout history, divides between the sciences and the humanities have been drawn in many different ways. This essay shows that the notion of a divide became more urgent and pronounced in the second half of the nineteenth century. While this shift has several causes, the essay focuses on the rise of the social sciences, which is interpreted as posing a profound challenge to the established disciplines of the study of humankind. This is demonstrated by zooming in on linguistics, one of the key traditional disciplines of the humanities. Through the assumption of a correspondence between mental and linguistic categories, psychology became of central importance in the various conceptions of linguistics that emerged in the nineteenth century. Both linguistics and psychology were very much engaged in a process of discipline formation, and opinions about the proper directions of the fields varied considerably. Debates on these issues catalyzed the construction of more radical divisions between the sciences and the humanities. Both Wilhelm Dilthey's dichotomy between understanding and explanation and Wilhelm Windelband's dichotomy between nomothetic and idiographic sciences respond to these debates. While their constructions are often lumped together, the essay shows that they actually meant very different things and have to be treated accordingly.

  15. ESENSIALITAS METODE STAD (STUDENT TEAMS ACHIEVEMENT DIVISION UNTUK PENDALAMAN MATERI BAHASA INDONESIA DI SEKOLAH

    Siti Nurhidayatul hasanah

    2015-06-01

    Full Text Available In the presence a portion student that declares for that Indonesian study really palls is fairly, since they have perceived can and forwarding material which unattractive so at second hand student become arrest deep frail that material. As teacher of Indonesian was necessarily feels happening learning problem all this time. So teacher necessarily tries do changes in Indonesian learning at within class. One of change which is done by use of method role play and STAD'S method (Student Teams Achievement division in standart interest converses and reading. In learning Tells hobby, can be done by use of method role play so makes student more active. Method role play understanding language as skill of straightforward speaking with bases student life in masayarakat. Method role play well-matched being applied while teacher does speaking learning with aided with role card.

  16. Steels from materials science to structural engineering

    Sha, Wei

    2013-01-01

    Steels and computer-based modelling are fast growing fields in materials science as well as structural engineering, demonstrated by the large amount of recent literature. Steels: From Materials Science to Structural Engineering combines steels research and model development, including the application of modelling techniques in steels.  The latest research includes structural engineering modelling, and novel, prototype alloy steels such as heat-resistant steel, nitride-strengthened ferritic/martensitic steel and low nickel maraging steel.  Researchers studying steels will find the topics vital to their work.  Materials experts will be able to learn about steels used in structural engineering as well as modelling and apply this increasingly important technique in their steel materials research and development. 

  17. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 36; Issue 1. Characterization and in vitro and in vivo evaluation of cross-linked chitosan films as implant for controlled release of citalopram. Patit P Kundu Santosh Kumar Jindal Manish Goswami. Volume 36 Issue 1 February 2013 pp 175-182 ...

  18. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 30; Issue 5. Influence of additives on electrodeposition of bright Zn–Ni alloy on mild steel from acid sulphate bath. S Shivakumara U Manohar Y Arthoba Naik T V Venkatesha. Alloys and Steels Volume 30 Issue 5 October 2007 pp 455-462 ...

  19. Bulletin of Materials Science | Indian Academy of Sciences

    Home; Journals; Bulletin of Materials Science; Volume 39; Issue 3. Structural investigation of V 2 O 5 –P 2 O 5 –K 2 O glass system with antibacterial potential. N S VEDEANU I B COZAR R STANESCU R STEFAN D VODNAR O COZAR. Volume 39 Issue 3 June 2016 pp 697-702 ...

  20. Bulletin of Materials Science | Indian Academy of Sciences

    Articles written in Bulletin of Materials Science. Volume 29 Issue 2 April 2006 pp 101-105 Polymers. Proton microbeam irradiation effects on PtBA polymer ... optical and secondary electron microscopic experimental methods. Volume 34 Issue 4 July 2011 pp 595-599. Thermal stability of gold-PS nanocomposites thin films.