Materials Research Letters (Feb 2022)

In-situ observations of a hierarchical twinning–detwinning process in stress-induced α″-martensite of Ti-12Mo alloy

  • Bingnan Qian,
  • Min Yang,
  • Lola Lilensten,
  • Philippe Vermaut,
  • Fan Sun,
  • Frédéric Prima

DOI
https://doi.org/10.1080/21663831.2021.2013967
Journal volume & issue
Vol. 10, no. 2
pp. 45 – 51

Abstract

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Beyond classic martensitic transformation-induced plasticity (TRIP), consecutive hierarchical twinning in the primary martensite is observed providing additional tensile strain about two-to-three times higher than the original transformation strain. The hierarchical twinning, operating in two different modes, contributes to at least one quarter of the plasticity in TRIP/TWIP Ti-12Mo alloy at early deformation stage. During tensile unloading, a peculiar multi-step detwinning process reverses the mechanically twinned martensite to its original orientation, resulting in rubber-like behavior. The complex reversible twinning process is investigated by combining in-situ EBSD/TEM experiments and theoretical rationalization with respect to Schmid factors and twin variant selection.

Keywords