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There has been an intense scientific interest in investigating the phenomenon of deformation-induced ε-ε martensite (hcp) interaction owing to the thermodynamically paradoxical reverse transformation and mechanical twinning. In this study, detailed transmission electron microscopy has been employed to examine the crystallographic orientation relationship, phase stability and boundaries between the intersection phases on the ε-ε intersections in a 10% tensile deformed Fe–30Mn–4Si–2Al alloy. The transformation/twinning scheme is systematically summarized initiating from the austenite matrix (γ) and two deformation-induced ε-martensite variants. It involves diverse intersection reactions: mechanical ε-twins, a 90º-rotating γ-phase from the γ matrix (γR), and 90º-rotate ε-phase re-transformed from the intersection γ. All these phases share a common <101>γ || <21 ̅1 ̅0>ε axis that is equivalent to the intersection axis of the crossing {111}<12 ̅1>γ shears and interrelated with rotational angles with respect to the axis. Electron diffraction, coupled with stereographic analysis, revealed the distinct orientation relationships between γ–ε and γR–ε phases.

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• In Copyright
  

Keyword: Martensite transformation, Twinning, TRIP steels, Transmission electron microscopy (TEM), ε-martensite

Date published: 2023-12-04

Publisher: Elsevier BV

Journal:

• Materials Characterization (ISSN: 10445803) vol. 207 113521

Funding:

• Japan Society for the Promotion of Science 21H01659

Manuscript type: Author's version (Submitted manuscript)

MDR DOI: https://doi.org/10.48505/nims.5129

First published URL: https://doi.org/10.1016/j.matchar.2023.113521

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Updated at: 2024-12-10 16:56:08 +0900

Published on MDR: 2024-12-10 16:56:08 +0900