The role of second phases in the Micro-Galvanic Corrosion Mechanism of AZ31B Magnesium Alloy

Abstract

The effect of the second relative on the microgalvanic corrosion of AZ31B alloy was studied. The behavior mechanism of the second phase in corrosion was discussed by adjusting the area ratio of the second phase by heat treatment. The experimental results show that the corrosion sensitivity of the second phase region and the grain boundary is higher, and the samples with larger second phase area show higher electrochemical activity and faster corrosion rate in the corrosive environment. It is found that the microcouple effect between the second phase and Mg matrix accelerates the dissolution rate of the alloy. This study provides theoretical support for further understanding and improving the corrosion resistance of AZ31B alloy.