Corrosion mechanism associated with Mg2Si and Si particles in Al–Mg–Si alloys

The electrochemical behaviors and coupling behaviors of the Mg2Si and Si phases with alpha (Al) were investigated, the corrosion morphologies of Al alloys containing Mg2Si and Si particles were observed, and the corrosion mechanism associated with them in Al-Mg-Si alloys was advanced. The results sh...

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Bibliographic Details
Published in:Transactions of Nonferrous Metals Society of China 2011-12, Vol.21 (12), p.2559-2567
Main Authors: ZENG, Feng-li, WEI, Zhong-ling, LI, Jin-feng, LI, Chao-xing, TAN, Xing, ZHANG, Zhao, ZHENG, Zi-qiao
Format: Article
Language:English
Subjects:
Alloys
Aluminum base alloys
Corrosion
Intermetallic compounds
Intermetallics
Magnesium compounds
Semiconductors
Silicides
Silicon
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Summary:The electrochemical behaviors and coupling behaviors of the Mg2Si and Si phases with alpha (Al) were investigated, the corrosion morphologies of Al alloys containing Mg2Si and Si particles were observed, and the corrosion mechanism associated with them in Al-Mg-Si alloys was advanced. The results show that Si particle is always cathodic to the alloy base, Mg2Si is anodic to the alloy base and corrosion occurs on its surface at the beginning. However, during its corrosion process, the preferential dissolution of Mg and the enrichment of Si make Mg2Si transform to cathode from anode, leading to the anodic dissolution and corrosion of the alloy base at its adjacent periphery at a later stage. As the mole ratio of Mg to Si in an Al-Mg-Si alloy is less than 1.73, it contains Mg2Si and Si particles simultaneously in the grain boundary area, and corrosion initiates on the Mg2Si surface and the precipitate-free zone (PFZ) at the adjacent periphery of Si particle. As corrosion time is extended, Si particle leads to severe anodic dissolution and corrosion of the PFZ at its adjacent periphery, expedites the polarity transformation between Mg2Si and the PFZ and accelerates the corrosion of PFZ at the adjacent periphery of Mg2Si particle.
ISSN:1003-6326
DOI:10.1016/S1003-6326(11)61092-3