Journal
RARE METALS
Volume 40, Issue 3, Pages 643-650Publisher
NONFERROUS METALS SOC CHINA
DOI: 10.1007/s12598-020-01368-7
Keywords
Corrosion; Mg-Zn-Ca-Sr; Morphology; Cooling methods
Funding
- Jiangsu Province Achievement Transformation Project [BA2017044]
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In this study, it was found that as the cooling rate increased, the grain of the alloy became finer, and the distribution of Zn and Sr became more uniform. The corrosion rate initially increased and then decreased, contrary to previous research findings.
The cooling gradient of Mg-3Zn-1Ca-0.5Sr alloy in cast ingots under different cooling methods (air cooling, warm-water cooling and ice-water-mixture cooling) was examined and the effect of cooling rate on the structure and corrosion properties was studied. The microstructure of the alloy was composed of alpha-Mg, Ca2Mg6Zn3 and Mg17Sr2 phases. As the solidification cooling rate increased, the grain was refined, Zn and Sr were less segregated, the distributions of Zn and Sr were more uniform, and corrosion rate was found to first increase and then decrease; this contradicts the findings of recent research. With cooling rate increasing, the number of corroded microcouples comprising second phase and alpha-Mg increases. More alpha-Mg participates in corrosion, leading to a layered and deep corrosion pit and an increased corrosion rate. However, as the microstructure became sufficiently dense, the corroded structure protected the deep alpha-Mg from participating in corrosion, thus reducing the corrosion rate. Graphic abstract
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