NP Fabrication and Performance of Micro-Arc Oxidized Composite Film Doped with CeO2 Particles

WANG Shuai-ke; MENG Jian-bing; GUAN Qing-yi; DONG Xiao-juan; YU Hao-yang; LI Hong-mei; LI Li

doi:10.16490/j.cnki.issn.1001-3660.2023.01.016

WANG Shuai-ke, MENG Jian-bing, GUAN Qing-yi, DONG Xiao-juan, YU Hao-yang, LI Hong-mei, LI Li

Surface Technology ›› 2023, Vol. 52 ›› Issue (1) : 152-161.

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Surface Technology ›› 2023, Vol. 52 ›› Issue (1) : 152-161. DOI: 10.16490/j.cnki.issn.1001-3660.2023.01.016

NP Fabrication and Performance of Micro-Arc Oxidized Composite Film Doped with CeO2 Particles

WANG Shuai-ke, MENG Jian-bing, GUAN Qing-yi, DONG Xiao-juan, YU Hao-yang, LI Hong-mei, LI Li

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Abstract

For copper and copper alloy, because copper is a non-valve metal, such as steel, zinc, nickel, niobium and other metals, it is generally considered that it is difficult to establish a stable plasma discharge channel in the initial stage of plasma electrolytic oxidation, and it is difficult to form a dense insulating film.

Key words

Cu-Zn alloy; micro-arc oxidation; CeO2; particle doping; corrosion resistance; film thickness

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WANG Shuai-ke, MENG Jian-bing, GUAN Qing-yi, DONG Xiao-juan, YU Hao-yang, LI Hong-mei, LI Li. NP Fabrication and Performance of Micro-Arc Oxidized Composite Film Doped with CeO2 Particles[J]. Surface Technology. 2023, 52(1): 152-161