The effects of different Zn contents in Al-Mg alloy on the microstructure characterizations were observed by advanced electron microscopy and the corrosion properties were investigated by the inter-granular corrosion ...The effects of different Zn contents in Al-Mg alloy on the microstructure characterizations were observed by advanced electron microscopy and the corrosion properties were investigated by the inter-granular corrosion tests,the exfoliation corrosion tests,and the Potentiodynamic polarizaion tests.The τ phase(Mg_(32)(Al,Zn)_(49)) forms on the pre-existing Mn-rich particles and at the grain boundaries.According to the theory of binding energy,the formation of τ phase is much easier than that of β phase(Al_3Mg_2),somehow replacing β phase and reducing the possibility of β phase precipitation.This change dramatically decreases the susceptibility of corrosion.The Zn addition increases the corrosion resistance of Al-Mg alloy with an optimal value of 0.31%.When the Zn addition is increased to 0.78%,however,the corrosion resistance of alloy decreases once again but it is still better than that of the alloy without Zn addition.展开更多
基金Project(2018JJ2513)supported by the Natural Science Foundation of Hunan Province,ChinaProject(18A378)supported by the Education Bureau Research Foundation of Hunan Province,ChinaProject(2019GK4012)supported by the Emerging Strategic Industrial Science and Technology Project of Hunan Province,China。
文摘为了提高锰氧化物负极材料的倍率和循环性能,采用沉淀法及热处理法,通过调控Mn2O3与Se粉的反应温度,制备Mn O/Mn3O4/Se Ox(x=0,2)复合负极材料。Mn O/Mn3O4/Se Ox负极在3 A/g电流密度下经过560次充放电循环后放电比容量为1007 m A·h/g。循环伏安法定量分析结果表明,在2.0 m V/s的扫描速率下赝电容贡献率高达89.5%。研究结果表明,Mn O与Mn3O4之间存在明显的协同效应。
基金Project(2011-006)supported by the State Administration of Science,Technology and Industry for National Defence,China
文摘The effects of different Zn contents in Al-Mg alloy on the microstructure characterizations were observed by advanced electron microscopy and the corrosion properties were investigated by the inter-granular corrosion tests,the exfoliation corrosion tests,and the Potentiodynamic polarizaion tests.The τ phase(Mg_(32)(Al,Zn)_(49)) forms on the pre-existing Mn-rich particles and at the grain boundaries.According to the theory of binding energy,the formation of τ phase is much easier than that of β phase(Al_3Mg_2),somehow replacing β phase and reducing the possibility of β phase precipitation.This change dramatically decreases the susceptibility of corrosion.The Zn addition increases the corrosion resistance of Al-Mg alloy with an optimal value of 0.31%.When the Zn addition is increased to 0.78%,however,the corrosion resistance of alloy decreases once again but it is still better than that of the alloy without Zn addition.