Electrodeposition of iron-rich Ni-Fe alloys from sulphate and chloride baths

K. Nakamura, M. Umetani, T. Hayashi
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引用次数: 23

Abstract

The electrodeposition of iron-rich Ni-Fe alloy deposits from both sulphate and chloride baths and their mechanical properties (hardness, ductility and internal stress) are discussed in detail as a function of bath composition and current density. The current efficiencies of Ni-Fe alloy deposition in the sulphate and chloride baths were found to be 85%–95% and 46%–65% respectively. The composition of the Ni-Fe alloy deposits changed markedly with increasing current density. The hardness of the Ni-Fe alloy deposits with nickel contents above 20 wt.% was 400–500 HV. Large internal stresses were observed in the pure iron and Ni-Fe alloy deposits obtained from both sulphate and chloride baths. However, the Ni-Fe alloy deposits have no cracks. The ductility of the Ni-Fe alloy deposits obtained from the sulphate bath ([Fe]/[Ni] = 1) increased with increasing current density. The electroplated iron had a textured structure. However, addition of Ni2+ ions to the iron plating bath led to a fine-grained lamellar structure.

硫酸盐和氯化物浴中富铁镍铁合金的电沉积
本文详细讨论了富铁镍铁合金在硫酸盐浴和氯化物浴中电沉积的过程及其力学性能(硬度、延展性和内应力)与镀液成分和电流密度的关系。镍铁合金在硫酸盐浴和氯化物浴中沉积的电流效率分别为85% ~ 95%和46% ~ 65%。随着电流密度的增大,镍铁合金镀层的成分发生了明显的变化。镍含量在20wt .%以上的Ni-Fe合金镀层硬度为400 ~ 500hv。在硫酸盐浴和氯化物浴中获得的纯铁和Ni-Fe合金沉积物中观察到较大的内应力。而Ni-Fe合金镀层无裂纹。硫酸盐浴([Fe]/[Ni] = 1)得到的Ni-Fe合金镀层的延展性随着电流密度的增大而增大。电镀铁具有有纹理的结构。然而,在镀铁液中加入Ni2+离子后,形成了细晶片层结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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