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Corrosion resistant and high-strength dual-phase Mg-Li-Al-Zn alloy by friction stir processing

Version 2 2024-06-02, 23:44
Version 1 2023-10-10, 05:33
journal contribution
posted on 2024-06-02, 23:44 authored by Z Zeng, M Zhou, M Esmaily, Y Zhu, S Choudhary, JC Griffith, J Ma, Y Hora, Y Chen, A Gullino, Q Shi, H Fujii, Nick BirbilisNick Birbilis
AbstractMagnesium is the lightest structural metal, and alloying with lithium makes it even lighter. However, multi-phase Mg-Li alloys typically undergo rapid corrosion, and their strength decreases at room temperature due to natural age-softening. Here, we engineer a rapidly degrading dual-phase Mg-Li-Al alloy to be durable via friction stir processing followed by liquid CO2 quenching. The best performing alloy has a low electrochemical degradation rate of 0.72 mg·cm−2· day−1, and high specific strength of 209 kN·m·kg−1. We attribute this electrochemical and mechanical durability to its microstructure, which consists of a refined grain size of approximately 2 µm and dense nanoprecipitates. This microstructure suppressed the formation of the detrimental AlLi phase, and an aluminium-rich protective surface layer also formed. This processing route might be useful for designing lightweight and durable engineering alloys.

History

Journal

Communications Materials

Volume

3

Article number

18

Pagination

1-10

Location

Berlin, Germany

ISSN

2662-4443

eISSN

2662-4443

Language

eng

Publication classification

C1.1 Refereed article in a scholarly journal

Issue

1

Publisher

Springer