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Influence of Pulse Current Forward-Reverse Duty Cycle on Structure and Performance of Electroplated W–Cu Composite Coatings
Authors:Yuchao Zhao  Nan Ye  Haiou Zhuo  Chaolong Wei  Weiwei Zhou  Jie Mao  Jiancheng Tang
Affiliation:School of Materials Science and Engineering, Nanchang University, No. 999, Xuefu Avenue, Nanchang 330031, China; (Y.Z.); (N.Y.); (H.Z.); (C.W.); (W.Z.); (J.M.)
Abstract:Tungsten-copper (W–Cu) composites are widely used as electrical contact materials, resistance welding, electrical discharge machining (EDM), and plasma electrode materials due to their excellent arc erosion resistance, fusion welding resistance, high strength, and superior hardness. However, the traditional preparation methods pay little attention to the compactness and microstructural uniformity of W–Cu composites. Herein, W–Cu composite coatings are prepared by pulse electroplating using nano-W powder as raw material and the influence of forward-reverse duty cycle of pulse current on the structure and mechanical properties is systematically investigated. Moreover, the densification mechanism of the W–Cu composite coating is analyzed from the viewpoints of forward-pulse plating and reverse-pulse plating. At the current density (J) of 2 A/dm2, frequency (f) of 1500 Hz, forward duty cycle (df) of 40% and reverse duty cycle (dr) of 10%, the W–Cu composite coating rendered a uniform microstructure and compact structure, resulting in a hardness of 127 HV and electrical conductivity of 53.7 MS/m.
Keywords:W–  Cu composite, electroplating, forward-reverse pulse current, duty cycle, microstructural uniformity, mechanical properties
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