Investigation of anodic dissolution and surface passivation of high-grade nickel matte in sulfuric acid solution

Q3 Materials Science

JCIS open Pub Date : 2021-10-01 DOI:10.1016/j.jciso.2021.100019

Chuncheng Zhu, Jietong Chen, Wen Tao, Qian Xu, Xingli Zou, Hongwei Cheng, Xionggang Lu

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引用次数: 1

Abstract

The anodic dissolution of the high-grade nickel matte in the sulfuric acid solution was investigated at the dynamic potential and potentiostatic polarizations, and the solid products on the surface of the matte at various polarized potentials were characterized by optical microscope, scanning electron microscope and Raman spectroscopy in order to understand the passivation mechanism for the anodic dissolution of nickel matte. The results show that the oxidation dissolution activity of nickel and copper sulfides existing in the matte during the anodic dissolution decreases in the order Cu₂S > Ni₃S₂ > NiS > CuS. When the anodic polarization potential is increasing to 1.2 V vs. SCE, the solid product for the oxidation of Cu₂S is composed of CuS, which forms a compact layer with fine cracks covering the surface and hinders the anodic dissolution further of Cu₂S underneath. While, at the same polarization potential, Ni₃S₂ in the matte can be anodically dissolved to form Ni²⁺ and elemental sulfur, and the solid product layer composing of sulfur and NiS is porous with coarse cracks, and has adverse effect on the anodic dissolution of Ni₃S₂ in the nickel matte.

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高档镍锍在硫酸溶液中的阳极溶解及表面钝化研究

在动态电位和恒电位极化条件下研究了优质哑镍在硫酸溶液中的阳极溶解，并利用光学显微镜、扫描电镜和拉曼光谱对不同极化电位下哑镍表面的固体产物进行了表征，以了解哑镍阳极溶解的钝化机理。结果表明:在阳极溶解过程中，存在于铜锍中的镍和铜硫化物的氧化溶解活性按Cu2S >的顺序递减;Ni3S2祝辞NiS在他因。当阳极极化电位增加到1.2 V / SCE时，Cu2S氧化的固体产物由cu组成，cu形成致密层，表面覆盖有细小的裂纹，阻碍了下面Cu2S的进一步阳极溶解。而在相同极化电位下，镍锍中的Ni3S2可以阳极溶解形成Ni2+和单质硫，由硫和NiS组成的固体产物层多孔且裂纹粗大，不利于Ni3S2在镍锍中的阳极溶解。

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