Fabrication and anodic polarization behavior of lead-based porous anodes in zinc electrowinning 被引量：3

Fabrication and anodic polarization behavior of lead-based porous anodes in zinc electrowinning

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摘要 A new type of lead-based porous anode in zinc electrowinning was prepared by negative pressure infiltration. The anodic polarization potential and corrosion rate were studied and compared with those of traditional flat anodes (Pb-0.8%Ag) used in industry. The anode corrosion rate was determined by anode actual current density and microstructure. The results show that the anodic oxygen evolution potential decreases first and then increases with the decrease of pore diameter. The anodic potential decreases to the lowest value of 1.729 V at the pore diameter of 1.25-1.60 mm. The porous anode can decrease its actual current density and thus decrease the anodic corrosion rate. When the pore diameter is 1.60-2.00 mm, the anodic relative corrosion rate reaches the lowest value of 52.1%. A new type of lead-based porous anode in zinc electrowinning was prepared by negative pressure infiltration. The anodic polarization potential and corrosion rate were studied and compared with those of traditional fiat anodes （Pb-0.8%Ag） used in industry. The anode corrosion rate was determined by anode actual current density and microstructure. The results show that the anodic oxygen evolution potential decreases first and then increases with the decrease of pore diameter. The anodic potential decreases to the lowest value of 1.729 V at the pore diameter of 1.25-1.60 mm. The porous anode can decrease its actual current density and thus decrease the anodic corrosion rate. When the pore diameter is 1.60-2.00 mm, the anodic relative corrosion rate reaches the lowest value of 52.1%.

作者衷水平赖延清蒋良兴吕晓军陈佩如李劼刘业翔

机构地区 School of Metallurgical Science and Engineering

出处《Journal of Central South University of Technology》 EI 2008年第6期757-762,共6页 中南工业大学学报（英文版）

基金 Project(2007SK2009) supported by the Science and Technology Research Project of Hunan Province, China

关键词电解提取锌负压渗入多孔阳极阳极电压腐蚀速率 zinc electrowinning negative pressure infiltration porous anode anode potential corrosion rate

分类号 TG174 [金属学及工艺—金属表面处理]

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Journal of Central South University of Technology

2008年第6期

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