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阴极表面喷砂预处理对锑电沉积的影响

高清利崔焱林艳

湿法冶金2025，Vol.44Issue(5)：645-652,8.

湿法冶金2025，Vol.44Issue(5)：645-652,8.DOI:10.13355/j.cnki.sfyj.2025.05.009

阴极表面喷砂预处理对锑电沉积的影响

Effect of Cathodic Surface Sandblasting Pretreatment on Antimony Electrodeposition

高清利 ¹崔焱 ²林艳³

作者信息

1. 昆明理工大学冶金与能源工程学院,云南昆明 650093||云南省中老能矿分析与技术创新国际联合研发中心,云南昆明 650093
2. 昆明学院化学化工学院,云南昆明 650214
3. 昆明理工大学冶金与能源工程学院,云南昆明 650093||云南省中老能矿分析与技术创新国际联合研发中心,云南昆明 650093||省部共建复杂有色金属资源清洁利用国家重点实验室,云南昆明 650093
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摘要

Abstract

In the process of extracting antimony by alkaline electro-deposition,problems such as cracking of the cathode deposited antimony,causing warping and shedding,occur due to insufficient interfacial bonding force between Sb and Fe,surface sandblasting pretreatment technology was proposed.The effects of the sandblasting pretreatment on the cathodic reduction and nucleation mechanism of antimony ions were systematically analyzed by combining cyclic voltammetry,steady-state polarization curves,and time-current transient curves.The results show that for the alkaline electro-deposition system of antimony,after sandblasting pretreatment of the iron-based cathode surface,the initial potential of the cathodic reduction reaction shifts to the left and positive.At the same overpotential,the current density is significantly increased compared to that without sandblasting treatment,and transfer coefficient and exchange current density are also enhanced.This indicates that the sandblasting treatment of the cathode surface can reduce the energy barrier of the cathodic reduction reaction of antimony ions,significantly increase the reduction reaction rate,and promote the three-dimensional nucleation process of antimony on the cathode surface,thereby obtaining a dense.well-shaped cathode antimony deposit layer.Further in-depth research was conducted on the influence of sandblasting particle size on the antimony electro-deposition process,and the optimal sandblasting particle size was determined to be 80 mesh.Under the condition,the cathode current efficiency is increased to 80.1％,the cell voltage is 2.031 V,the direct current power consumption per ton of antimony is reduced to 1674.76 kW·h/t,and the purity of cathode antimony reaches 98.81％.

关键词

喷砂预处理/锑/电沉积/界面结合力

Key words

sandblasting pretreatment/antimony/electrodeposition/interfacial adhesion force

分类

矿业与冶金

引用本文复制引用

高清利,崔焱,林艳..阴极表面喷砂预处理对锑电沉积的影响[J].湿法冶金,2025,44(5):645-652,8.

基金项目

云南省建设面向南亚东南亚科技创新中心专项(202303AP140019). （202303AP140019）

湿法冶金

OA北大核心

ISSN：1009-2617

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