Comparison of corrosion and oxygen evolution behaviors between cast and rolled Pb–Ag–Nd anodes 被引量：1

Comparison of corrosion and oxygen evolution behaviors between cast and rolled Pb–Ag–Nd anodes

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摘要 The corrosion and oxygen evolution behaviors of cast and rolled Pb–Ag–Nd anodes were investigated by metalloscopy, environmental scanning electron microscopy, X-ray diffraction analysis, and various electrochemical measurements. The rolled anode exhibits fewer interdendritic boundaries and a dispersed distribution of Pb–Ag eutectic mixtures and Nd-rich phases in its cross-section. This feature inhibits rapid interdendritic corrosion into the metallic substrate along the interdendritic boundary network. In addition, the anodic layer formed on the rolled anode is more stable toward the electrolyte than that formed on the cast anode, reducing the corrosion of the metallic substrate during current interruption. Hence, the rolled anode has a higher corrosion resistance than the cast anode. However, the rolled anode exhibits a slightly higher anodic potential than the cast anode after 72 h of galvanostatic polarization, consistent with the larger charge transfer resistance. This larger charge transfer resistance may result from the oxygen-evolution reactive sites being blocked by the adsorption of more intermediates and oxygen species at the anodic layer/electrolyte interfaces of the rolled anode than at the interfaces of cast anode. The corrosion and oxygen evolution behaviors of cast and rolled Pb–Ag–Nd anodes were investigated by metalloscopy, environmental scanning electron microscopy, X-ray diffraction analysis, and various electrochemical measurements. The rolled anode exhibits fewer interdendritic boundaries and a dispersed distribution of Pb–Ag eutectic mixtures and Nd-rich phases in its cross-section. This feature inhibits rapid interdendritic corrosion into the metallic substrate along the interdendritic boundary network. In addition, the anodic layer formed on the rolled anode is more stable toward the electrolyte than that formed on the cast anode, reducing the corrosion of the metallic substrate during current interruption. Hence, the rolled anode has a higher corrosion resistance than the cast anode. However, the rolled anode exhibits a slightly higher anodic potential than the cast anode after 72 h of galvanostatic polarization, consistent with the larger charge transfer resistance. This larger charge transfer resistance may result from the oxygen-evolution reactive sites being blocked by the adsorption of more intermediates and oxygen species at the anodic layer/electrolyte interfaces of the rolled anode than at the interfaces of cast anode.

作者 Xiao-cong Zhong Xiao-ying Yu Zheng-wei Liu Liang-xing Jiang Jie Li Ye-xiang Liu

机构地区 School of Metallurgy and Environment

出处《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2015年第10期1067-1075,共9页 矿物冶金与材料学报（英文版）

基金 financially supported by the National Natural Science Foundation of China(Nos.51204208 and 51374240) the Natural Science Foundation of Hunan Provincial,China(No.13JJ1003) the Fundamental Research Funds for the Central Universities of Central South University(No.2014zzts028)

关键词 lead–silver alloys anode materials ROLLING corrosi lead–silver alloys anode materials rolling corrosi

分类号 TG146.12 [金属学及工艺—金属材料]

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2015年第10期

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