Sample records for corrosion resistant alloys
from WorldWideScience.org

Sample records 1 - 2 shown.



1

Otimização do banho eletrolítico da liga Fe-W-B resistente à corrosão/ Optimization of the electrolytic bath for electrodeposition of corrosion resistant Fe-W-B alloys

Santana, Renato Alexandre Costa de; Campos, Ana Regina Nascimento; Prasad, Shiva; Leite, Valderí D.
2007-04-01

Resumo em inglês A study on optimization of bath parameters for electrodeposition of Fe-W-B alloys from plating baths containing ammonia and citrate is reported. A 2³ full factorial design was successfully employed for experimental design analysis of the results. The corrosion resistance and amorphous character were evaluated. The bath conditions obtained for depositing the alloy with good corrosion resistance were: 0.01 M iron sulfate, 0.10 M sodium tungstate and 0.60 M ammonium citrate (mais) . The alloy was deposited at 12% current efficiency. The alloy obtained had Ecorr -0.841 V and Rp 1.463 x 10(4) Ohm cm². The deposit obtained under these conditions had an amorphous character and no microcracks were observed on its surface. Besides this, the bath conditions obtained for depositing the alloy with the highest deposition efficiency were: 0.09 M iron sulfate, 0.30 M sodium tungstate and 0.50 M ammonium citrate. The alloy was deposited at 50% current efficiency, with an average composition of 34 wt% W, 66 wt% Fe and traces of boron. The alloy obtained had Ecorr -0.800 V and Rp 1.895 x 10³ Ohm cm². Electrochemical corrosion tests verified that the Fe-W-B alloy deposited under both conditions had better corrosion resistance than Fe-Mo-B.

Scientific Electronic Library Online (Portuguese)

2

Revestimento eletrolítico com uma liga amorfa de Ni-W-B, resistente à corrosão e ao desgaste/ Electrolytic coating with corrosion and wear resistant Ni-W-B amorphous alloy

Santana, R. A. C. de; Prasad, S.; Santana, F. S. M. de
2003-01-01

Resumo em português Estudou-se o processo de eletrodeposição de uma camada amorfa de liga Ni-W-B sobre um cátodo, utilizando um banho contendo sulfato de níquel 0,0185 M, tungstato de sódio 0,0155 M, fosfato de boro 0,0364 M, citrato de sódio 0,0161 M, 1-docecilsulfato de sódio 0,017 g/L e hidróxido de amônio para pH 8,5. Estudos detalhados sobre a influência da temperatura do banho, agitação mecânica e densidade de corrente catódica conduziram as condições ótimas para obten (mais) ção de depósitos de ligas satisfatórias. Observou-se que esta liga apresentou, elevada resistência à corrosão e ao desgaste quando comparadas com o cromo duro, além de se comprovar, através da difratometria de raios X, sua característica amorfa. Estas ligas podem ter grande utilidade em várias aplicações nas indústrias químicas, petrolíferas, petroquímicas, navais, de construções civis e automobilísticas em decorrência de algumas características especiais, como alta resistência à corrosão e desgaste e à capacidade de manter suas propriedades mecânicas em altas temperaturas. Resumo em inglês The process of electrodeposition of amorphous layer of Ni-W-B alloy on a cathode, using a bath containing 0.0185 M nickel sulfate, 0.0155 M sodium tungstate, 0.0364 M sodium citrate, 0.017 g/L 1-dodecylsulfate-Na and ammonia for pH adjustment to 8.5, has been studied. Detailed studies on bath temperature, bath agitation and cathode current density led to the optimum conditions for obtaining satisfactory alloy deposit. The alloy presented higher corrosion and wear resistan (mais) ce in comparison to the hard chromium, besides its amorphous characteristic verified by X-ray diffraction. These alloys should have great importance in various applications in chemical, petroleum, petrochemical, naval, automobile and civil construction industries due to their special characteristics such as high wear and corrosion resistance and the capacity to maintain their mechanical properties at high temperatures.

Scientific Electronic Library Online (Portuguese)