Some Regularities of Deposition of an Iron-Tungsten Alloy from Citrate-Ammoniate Solutions

Zakharov, E. N.; Gamburg, Yu. D.

doi:10.1007/s11175-005-0151-7

Cited by 8 publications

(6 citation statements)

References 2 publications

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“…The maximum microhardness was obtained for Fe-W coatings electrodeposited from citrate-ammonia baths operated at 70°С. An important feature of such alloys was their amorphous or nanocrystalline structure [6,[14][15][16][17][18]. The corrosion behavior of such Fe-W coatings was reported by Kublanosky et al [18].…”

Section: Introductionmentioning

confidence: 99%

“…At least four processes take place during the electrodeposition of Fe-W alloys, namely the reduction of both iron complexes and tungstate ions, the evolution of hydrogen, and the formation of products resulting from the incomplete reduction of iron ions [14][15][16]. Moreover, the current efficiency, the structure, and the morphology of such electrodeposited alloys depend on the cations presented in the electrolyte, namely NH 4 + , K + , and Na + [16].…”

Section: Introductionmentioning

confidence: 99%

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Iron–tungsten alloys electrodeposited under direct current from citrate–ammonia plating baths

Цынцару

Bobanova

et al. 2009

Surface and Coatings Technology

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Iron–tungsten alloys electrodeposited under direct current from citrate–ammonia plating baths

Цынцару

Bobanova

et al. 2009

Surface and Coatings Technology

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“…In their electrolyte, ferric ions are complexed by sorbitol and can be reduced to metallic iron. In the electrodeposition of Fe-W alloy by Zakharov et al [16], the reduction of metal ions occurs most likely from ferric ions, rather than from ferrous ions. This indicates that the FePt bath based on a ferric salt can be an alternative electrolyte to chloride or sulfate baths.…”

Section: Introductionmentioning

confidence: 99%

Characterization of FePt film electrodeposited with a ferric electrolyte

Cherevko

Song

et al. 2009

Korean J. Chem. Eng.

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The electrodeposition of FePt alloy film in a novel ferric electrolyte that could be an alternative electrolyte to the usual non-stable baths was investigated. The influence of the applied current density and electrolyte temperature on the composition of the alloy was studied. It was found that co-deposition of oxygen can be reduced by deposition at higher temperature of 65 o C than room temperature. The as-deposited film had a face-centered cubic (γ-Fe,Pt) structure, and after an additional annealing process, the structure was changed to a face-centered tetragonal structure. The as-deposited FePt film also shows good resistance to corrosion and its coercivity was about 0.1T, which makes it suitable for use in applications compatible with silicon technology.

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“…Esse comportamento pode estar associado ao efeito sinergético entre Fe 2+ e o WO 4 2-23 . Um aumento excessivo da concentração de tungstato de sódio provoca uma diminuição da eficiência de deposição e um aumento da taxa de tungstênio no depósito 25 . A concentração de tungstato de sódio mostrou influência estatística na resistência à corrosão do processo (Tabela 4).…”

Section: Efeito Das Concentrações De Tungstato De Sódiounclassified

Otimização do banho eletrolítico da liga Fe-W-B resistente à corrosão

Santana¹,

Campos²,

Prasad³

et al. 2007

Quím. Nova

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Recebido em 2/2/06; aceito em 12/6/06; publicado na web em 28/11/06 OPTIMIZATION OF THE ELECTROLYTIC BATH FOR ELECTRODEPOSITION OF CORROSION RESISTANT Fe-W-B ALLOYS. A study on optimization of bath parameters for electrodeposition of Fe-W-B alloys from plating baths containing ammonia and citrate is reported. A 2 3 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. The alloy was deposited at 12% current efficiency. The alloy obtained had Ecorr -0.841 V and Rp 1.463 x 10 4 Ohm cm 2 . 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 10 3 Ohm cm 2 . Electrochemical corrosion tests verified that the Fe-W-B alloy deposited under both conditions had better corrosion resistance than Fe-Mo-B.Keywords: Fe-W-B alloy; electrodeposition; corrosion resistance. INTRODUÇÃOOs revestimentos protetores, além de constituírem uma importante forma de prevenção à corrosão metálica, principalmente a atmosférica, podem melhorar consideravelmente as propriedades fí-sico-químicas das superfícies. Os revestimentos mais comuns são os de cobre, níquel e cromo 1 . A eletrodeposição representa uma boa maneira de revestir as superfícies metálicas 2,3 ; uma das aplicações industriais mais importantes da eletrodeposição é o revestimento com finalidade de inibir a corrosão, que ocorre na superfície do metal e nas suas estruturas sob influência do meio ambiente 4,5 . O termo "codeposição induzida" foi apresentado por Brenner para descrever uma situação em que um metal não pode ser eletrodepositado a partir de solução aquosa na sua forma pura e sim, codepositado na presença de outro metal, formando dessa forma uma liga 6 . Um exemplo de codeposição induzida são as ligas de W com os elementos Ni, Co, e Fe 7,8 . Muitos autores investigaram o processo de eletrodeposição do tungstênio com os metais do grupo do ferro em soluções aquosas 9,10 . O metal tungstênio e suas ligas são utilizados em situações que necessitam de altas temperaturas. O tungstênio apresenta as seguintes propriedades: alta resistência à corrosão, dureza, mesmo em temperaturas elevadas, baixo coeficiente de dilatação, alta condutividade térmica, além de não ser atacado por nenhum ácido mineral à temperatura ambiente 11 e forma ligas duras com o cobalto, retendo algumas de suas propriedades incomuns 1 . O planejamento fatorial experimental apresenta muitas vantagens sobre os métodos univa...

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Some Regularities of Deposition of an Iron-Tungsten Alloy from Citrate-Ammoniate Solutions

Cited by 8 publications

References 2 publications

Iron–tungsten alloys electrodeposited under direct current from citrate–ammonia plating baths

Iron–tungsten alloys electrodeposited under direct current from citrate–ammonia plating baths

Characterization of FePt film electrodeposited with a ferric electrolyte

Otimização do banho eletrolítico da liga Fe-W-B resistente à corrosão

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