Experimental Research on Electroforming Nano-ZrO2 Reinforced Cu-Matrix Composite Aided by Pulse Power

Prepared the nanoZrO2 reinforced Cu-matrix composite by pulse electroforming. The effects of the content of nanoZrO2 particle in the casting solution, average cathodic current density, duty cycle, pulse frequency and ultrasonic power on the content of nanoZrO2 in the electroforming Cu-matrix composi...

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Veröffentlicht in:	Key engineering materials 2018-02, Vol.764, p.95-105
Hauptverfasser:	Cui, Hong Bin, Sima, Zhong Wen, Li, Zhi Yong, Guo, Hun
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Sprache:	eng
Schlagworte:	Copper Current density Electroforming Metal matrix composites Microhardness Morphology Zirconium dioxide
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creator	Cui, Hong Bin Sima, Zhong Wen Li, Zhi Yong Guo, Hun
description	Prepared the nanoZrO2 reinforced Cu-matrix composite by pulse electroforming. The effects of the content of nanoZrO2 particle in the casting solution, average cathodic current density, duty cycle, pulse frequency and ultrasonic power on the content of nanoZrO2 in the electroforming Cu-matrix composite have been studied. The microhardness and surface morphology of Cu-ZrO2 composite were analyzed. The experimental results demonstrate that the maximum content of nanoZrO2 in the electroforming Cu-ZrO2 composite is 2.94%, microhardness is 492 HV, which is significantly improved compared with pulse pure copper’s 337 HV, when the content of nanoZrO2 is 40 g/L, average cathodic current density is 4A/dm2, duty cycle is 0.2 , pulse frequency is 1100 Hz and ultrasonic power is 20w .The surface of composite prepared by pulse electroforming is more smooth, organization is denser, grain is finer and agglomeration of nanoZrO2 particles is fewer compared with Direct-current electroforming nanoZrO2 reinforced Cu-ZrO2 composite.
doi_str_mv	10.4028/www.scientific.net/KEM.764.95
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subjects	Copper Current density Electroforming Metal matrix composites Microhardness Morphology Zirconium dioxide
title	Experimental Research on Electroforming Nano-ZrO2 Reinforced Cu-Matrix Composite Aided by Pulse Power
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