Effects of grain size and secondary phase on corrosion behavior and electrochemical performance of Mg-3Al-5Pb-1Ga-Y sacrificial anode 被引量：6

Effects of grain size and secondary phase on corrosion behavior and electrochemical performance of Mg-3Al-5Pb-1Ga-Y sacrificial anode

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摘要 Grains with size of 4.5—20.5μm were studied for their corrosion behavior and electrochemical performance in a Mg-3 Al-5 Pb-1 Ga-Y sacrificial anode using immersion testing,electrochemical measurements and microstructure analysis.The results show that fine-grained microstructure has higher chemical activity and more negative discharge potentials than coarse-grained samples.The sample with the smallest average grain size of 4.5μm exhibits corrosion current density of 7.473×10-5 A/cm2,and work potentials of-1.721 V at current density of 10 mA/cm2.The density of grain boundaries and LAGBs increases with grain refinement,which leads to higher rates of dissolution and diffusion for the atoms.The secondary phases promote the occurrence of corrosion and improve the chemical activity of alloy due to their higher potential than the substrate.Higher corrosion rate and discharge activity are directly attributed to the higher density of grain boundaries and LAGBs,as well as the secondary phase. Grains with size of 4.5—20.5 μm were studied for their corrosion behavior and electrochemical performance in a Mg-3 Al-5 Pb-1 Ga-Y sacrificial anode using immersion testing,electrochemical measurements and microstructure analysis.The results show that fine-grained microstructure has higher chemical activity and more negative discharge potentials than coarse-grained samples.The sample with the smallest average grain size of 4.5 μm exhibits corrosion current density of 7.473×10-5 A/cm2,and work potentials of-1.721 V at current density of 10 mA/cm2.The density of grain boundaries and LAGBs increases with grain refinement,which leads to higher rates of dissolution and diffusion for the atoms.The secondary phases promote the occurrence of corrosion and improve the chemical activity of alloy due to their higher potential than the substrate.Higher corrosion rate and discharge activity are directly attributed to the higher density of grain boundaries and LAGBs,as well as the secondary phase.

作者 Qiang Cui Danqing Yi Hongxuan Wang Jiayi Zhang Jiao Xu Bin Wang

机构地区 School of Material Science and Engineering Light Alloy Research Institute School of Mechanical Engineering

出处《Journal of Rare Earths》 SCIE EI CAS CSCD 2019年第12期1341-1350,共10页 稀土学报（英文版）

基金 Project supported by the 2011 Program of the Ministry of Education in China(043010100,51701039)

关键词 Magnesium ANODE GRAIN size Secondary phase Corrosion behavior Electrochemical performance RARE earths Magnesium anode Grain size Secondary phase Corrosion behavior Electrochemical performance Rare earths

分类号 TG1 [金属学及工艺—金属学]

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