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Martensitic transformation in CrCoNi medium-entropy alloy at cryogenic temperature

低温でのCrCoNi中エントロピー合金のマルテンサイト変態

Naeem, M.*; Zhou, H.*; He, H.*; Harjo, S.  ; 川崎 卓郎 ; Lan, S.*; Wu, Z.*; Zhu, Y.*; Wang, X.-L.*

Naeem, M.*; Zhou, H.*; He, H.*; Harjo, S.; Kawasaki, Takuro; Lan, S.*; Wu, Z.*; Zhu, Y.*; Wang, X.-L.*

We investigated the in situ deformation behavior of the CrCoNi medium-entropy alloy at a cryogenic temperature of 140 K and compared it with deformation at room temperature. The sample exhibited higher strength and larger ductility at the cryogenic temperature. The CrCoNi alloy remained single-phase face-centered cubic at room temperature, while deformation at 140 K resulted in a martensitic transformation to the hexagonal close-packed structure. The phase transformation, an additional deformation mechanism to stacking faults, twinning, and dis- location slip, resulted in a higher work hardening at cryogenic temperature. The study addresses the structure metastability in the CrCoNi alloy, which led to the formation of epsilon-martensite from the intrinsic stacking faults.

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