镁
溶解
腐蚀
材料科学
相(物质)
阳极
BETA(编程语言)
冶金
氢
作者
C. Ubeda,Gerardo Garcés,Paloma Adeva,Irene Llorente,Gerald S. Frankel,S. Fajardo
标识
DOI:10.1016/j.corsci.2019.108384
摘要
Abstract The role of the Mg17Al12 second phase on the anomalous HE and anodic dissolution of AZ31 and AZ91 Mg alloys was investigated. A passive-like behavior was exhibited by the Mg17Al12 phase with strong anomalous HE originating from local anodic regions where the passive film had broken down. The Mg17Al12 exhibited lower HE rates than the AZ Mg alloys during anodic polarization. Surface characterization confirmed that dissolution of Mg17Al12 in the AZ91 alloy only occurred above the Eb for the Mg17Al12. Under anodic polarization, greater amounts of Mg17Al12 are beneficial for AZ Mg alloys durability, decreasing the Mg matrix dissolution rates.
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