摘要
The corrosion inhibition property of PEG600 and In(OH)3 as composite corrosion inhibitors for (second-)(ary) alkaline zinc electrodes was studied, and the inhibition efficiency was determined as 81.9%. The research focused on the mechanism by the methods of electrochemical impedance spectroscopy, polarization curves and IR spectroscopy. The results indicate that the corrosion inhibition effectiveness is attributed to the joint inhibition of anodic zinc dissolution and cathodic hydrogen evolution. And the anodic process is depressed to a greater extent than the cathodic process. The synergistic mechanism of the composite inhinbitors proves to be the enhancement of adsorption of PEG600 by In(OH)3. Potentiostatic experiment results and SEM images verify the inhibition of dendritic growth by the composite inhibitors.
The corrosion inhibition property of PEG600 and In(OH)_3 as composite corrosion inhibitors for (second-)(ary) alkaline zinc electrodes was studied, and the inhibition efficiency was determined as 81.9%. The research focused on the mechanism by the methods of electrochemical impedance spectroscopy, polarization curves and IR spectroscopy. The results indicate that the corrosion inhibition effectiveness is attributed to the joint inhibition of anodic zinc dissolution and cathodic hydrogen evolution. And the anodic process is depressed to a greater extent than the cathodic process. The synergistic mechanism of the composite inhinbitors proves to be the enhancement of adsorption of PEG600 by In(OH)_3. Potentiostatic experiment results and SEM images verify the inhibition of dendritic growth by the composite inhibitors.
出处
《中国有色金属学会会刊:英文版》
CSCD
2005年第1期200-206,共7页
Transactions of Nonferrous Metals Society of China
关键词
二级碱性电池
锌阳极
腐蚀抑制剂
协同效应
树突生长
secondary alkaline zinc anode
composite corrosion inhibitors
corrosion inhibition
synergistic effect
dendritic growth
