Modeling twinning, detwinning, and dynamic recrystallization of magnesium alloys

Modeling twinning, detwinning, and dynamic recrystallization of magnesium alloys

Magnesium alloys usually lack “operative deformation slip mechanisms” because of their hexagonal close-packed structure. Therefore, the mechanical behavior of magnesium alloys at different temperatures is dictated by other deformation mechanisms such as twinning, detwinning, secondary twinning, or d...

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Veröffentlicht in:MRS bulletin 2019-11, Vol.44 (11), p.873-877
Hauptverfasser: Wang, Huamiao, Li, Shuangming, Li, Dayong, Proust, Gwénaëlle, Gan, Yixiang, Yan, Kun, Tang, Ding, Wu, Peidong, Peng, Yinghong
Format: Artikel
Sprache:eng
Schlagworte:
Alloys
Applied and Technical Physics
Asymmetry
Characterization and Evaluation of Materials
Constitutive models
Deformation mechanisms
Ductility
Dynamic recrystallization
Energy Materials
Grain boundaries
Grain size distribution
Growth models
High-Temperature Materials for Structural Applications
Magnesium base alloys
Materials Engineering
Materials Science
Mathematical models
Mechanical properties
Modelling
Nanotechnology
Propagation
Secondary recrystallization
Temperature
Twinning
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Zusammenfassung:Magnesium alloys usually lack “operative deformation slip mechanisms” because of their hexagonal close-packed structure. Therefore, the mechanical behavior of magnesium alloys at different temperatures is dictated by other deformation mechanisms such as twinning, detwinning, secondary twinning, or dynamic recrystallization (DRX). Twinning and DRX can affect the development of grain size and orientation distribution, as well as the deformation behavior of magnesium alloys. The current understanding of the mechanisms and mechanics of these different deformation modes and their implementation in crystal plasticity-based modeling are highlighted in this article. Future directions in the development of constitutive models are also discussed.
ISSN:0883-7694
1938-1425
DOI:10.1557/mrs.2019.254