Electrodeposition of Ni-Cr alloy on aluminum substrate

Yu-fang Yang; Zhu-qing Gong; Li-yuan Deng; Bei-ping Luo; Yu-tian Ma; Zhen-hui Yang

doi:10.1007/s11771-006-0134-1

Journal of Central South University ›› 2006, Vol. 13 ›› Issue (3) : 219 -224. DOI: 10.1007/s11771-006-0134-1

Article

Electrodeposition of Ni-Cr alloy on aluminum substrate

Author information +

History +

PDF

Abstract

Ni-Cr alloys with mass fraction of 1.4%–23.9%Cr, 76.1%–98.6%Ni, and hardness of 70.5–80.5HR were electrodeposited on aluminium substrate from the trivalent chromium sulphate-chloride solution using citric acid as complexing agent. The aluminium was pretreated by means of degreasing and eroding, polishing and twice chemical immersion of zinc. The effects of electrodeposition parameters such as current density, temperature, pH value and bath concentration on the composition and hardness of deposits were investigated. The results show that the Cr content increases with the increase of current density and the decrease of temperature, and that it increases with the increase of pH value to a maximum and then decreases. The increase of Cr content leads to the increase of hardness of the Ni-Cr layers. The deposits with high Cr content are of good corrosion resistance. Good adherence of Ni-Cr deposits to aluminium substrate is obtained. The Ni-Cr alloys are the Ni-Cr solid solution with fcc crystalline structure. The Ni-Cr alloy deposits are fine, bright and smooth and compact.

Keywords

nickel-chromium alloy / aluminium substrate / electrodeposition

Cite this article

Download citation ▾

Yu-fang Yang, Zhu-qing Gong, Li-yuan Deng, Bei-ping Luo, Yu-tian Ma, Zhen-hui Yang. Electrodeposition of Ni-Cr alloy on aluminum substrate. Journal of Central South University, 2006, 13(3): 219-224 DOI:10.1007/s11771-006-0134-1

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	DeqingW, ZiyuanS, TangshanK. Composite plating of hard chromium on aluminium substrate[J]. Surface and Coatings Technology, 2005, 191: 324-329

[2]	FengW, TohruW. Preparation and characterization of the electrodeposited Fe-Cr alloy film [J]. Mater Sci Eng A, 2003, A349: 183-190

[3]	BojinovM, FabriciusG, KinnunenP. The mechanism of transpassive dissolution of Ni-Cr alloys in sulphate solutions[J]. Electrochimica Acta, 2000, 45: 2791-2802

[4]	BojinovM, FabriciusG, KinnunenP. Electrochemical study of the passive behaviour of Ni-Cr alloys in a borate solution: a mixed-condution model approach[J]. Journal of Electroanalytical Chemistry, 2001, 504: 29-44

[5]	ZhangPi-jian, ZhouLi-zhuang, WangXiao-ling. Technology of electrodepositing Ni-Cr alloy[J]. Materials Protection, 1997, 30(3): 16-18(in Chinese)

[6]	ChenLei, GongZhu-qing, HuangZhi-jie. Study of nickel-chromium electrodeposit [J]. Electroplating and Finishing, 1998, 17(4): 4-6(in Chinese)

[7]	FengShao-bin, FengLi-ting, ShangShi-bo. Chromium-nickel alloy electroplating technology of trivalent chromium system [J]. Materials Protection, 2004, 37(5): 24-25(in Chinese)

[8]	LiGuo-bin, PengRong-hua, MaSong-jiang. Ni-Cr alloy electrodeposition [J]. Materials Protection, 2004, 37(11): 22-23(in Chinese)

[9]	DolatiA G, GhorbaniM, AfsharA. The electrodeposition of quaternary Fe-Cr-Ni-Mo alloys from the chloride-complexing agents electrolyte. Part I: Processing[J]. Surface and Coating Technology, 2003, 166: 105-110

[10]	DengShu-hao, GongZhu-qing, YiDan-qing, et al.. Electrochemical mechanism of trivalent chromium electrodeposition[J]. Journal of Central South University of Technology: Science and Technology, 2005, 36(2): 213-218(in Chinese)

[11]	SongY B, ChinD T. Current efficiency and polarization behaviour of trivalent chromium electrodeposition process[J]. Electrochimica Acta, 2002, 48: 349-356