Improved oxidation resistance of Mg-9Al-1Zn alloy microalloyed with 60?wt?ppm Be attributed to the formation of a more protective (Mg,Be)O surface oxide

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The oxidation resistance of Mg-9Al-1Zn alloy (AZ91) was significantly improved through microalloying with 60?ppm Be. Be reinforced the initially formed oxide layer on the alloy surface by (i) the formation of a (Mg,Be)O solid solution due to the Be enrichment; and (ii) the refined gains of the (Mg,Be)O. During high-temperature oxidation, the reinforced (Mg,Be)O layer provided sufficient strength to withstand the internal stresses and the Mg vaporisation, and therefore delayed the oxide layer cracking and debonding from the substrate. In addition, the initial oxidation rates of AZ91 and Be-containing AZ91 were closely related to surface roughness.

» Author: Qiyang Tan, Ning Mo, Chih-Ling Lin, Bin Jiang, Fusheng Pan, Han Huang, Andrej Atrens, Ming-Xing Zhang

» Reference: Corrosion Science

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