Effect of Electrolysis Modes on Physico-Mechanical Properties of Composite Coatings Based on Nickel

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The receiving method and some properties of the composite nickel containing galvanic coating on base nickel-cobalt-oxide silicon-carbide silicon system were discussed. Chloride electrolyte for the application of the composite electroplating coating with firmness to wear and corrosion properties of nickel-cobalt-oxide silicon-carbide silicon system was elaborated. Influence of electrolysis and electrolyte composition on physico-mechanical properties (firmness to wear, corrosion resistance, hardness, internal tensions, porosity, adhesion) of the composite electrolytic coating of nickel-cobalt-silicon oxide system, electroplated from chloride electrolyte, and on the properties of electrolyte (diffusing ability, output current draught) were investigated. The possibility of using for composite electroplating of nickel-cobalt-silicon oxide-carbide silicon system as a firmness to wear coating in instead of chrome was showed.

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Edited by:

Dr. Denis Solovev

Pages:

647-652

Citation:

A.V. Arzumanova and A.V. Starunov, "Effect of Electrolysis Modes on Physico-Mechanical Properties of Composite Coatings Based on Nickel", Materials Science Forum, Vol. 945, pp. 647-652, 2019

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February 2019

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