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Meeting

2022 TMS Annual Meeting & Exhibition

Symposium

Dynamic Behavior of Materials IX

Presentation Title

Understanding the Phase Transformation Mechanisms of Fe-based Microstructures at the Atomic Scales

Author(s)

Avanish Mishra, Jonathan Lind, Mukul Kumar, Avinash Dongare

On-Site Speaker (Planned)

Avanish Mishra

Abstract Scope

Large-scale molecular dynamics (MD) simulations are carried out to investigate the shock-induced evolution of single-crystal Fe and Cu/Fe alloy microstructures. The shock compression of Fe leads to BCC (α) → HCP (ε) phase transformation. The shock release causes reverse ε → α phase transformation-induced twinning. The microstructure is characterized using lattice orientation, misorientations, and rotation matrices to identify the variants of ε phases under shock compression and understand the mechanisms for the formation of twins during shock release. The simulations reveal that the α → ε → α transformation-induced twinning for shock loading along [110] direction is due to a dominant [0001] ε phase variant formed during compression that rotates with the arrival of the release wave followed by reverse phase transformation to twins in the α phase. The evolution of the ε phase variant and the twinning mechanism for Fe and Cu-Fe layered microstructures will be presented.

Proceedings Inclusion?

Planned:

Keywords

Phase Transformations, Iron and Steel, Computational Materials Science & Engineering

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