Materials Research Letters (Mar 2017)

Design and tensile properties of a bcc Ti-rich high-entropy alloy with transformation-induced plasticity

  • Lola Lilensten,
  • Jean-Philippe Couzinié,
  • Julie Bourgon,
  • Loïc Perrière,
  • Guy Dirras,
  • Frédéric Prima,
  • Ivan Guillot

DOI
https://doi.org/10.1080/21663831.2016.1221861
Journal volume & issue
Vol. 5, no. 2
pp. 110 – 116

Abstract

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A new bcc Ti-rich high-entropy alloy (HEA) of composition Ti35Zr27.5Hf27.5Nb5Ta5 was designed using the ‘d-electron alloy design’ approach. The tensile behavior displays a marked transformation-induced plasticity effect resulting in a high normalized work-hardening rate of 0.103 without loss of ductility when compared to the reference composition Ti20Zr20Hf20Nb20Ta20. In this paper, a detailed microstructural analysis was performed to understand the deformation process, revealing architectural-type microstructures and a high volume fraction (65%) of internally twinned stress-induced martensite α″ after mechanical testing. This study opens the way to mechanical properties optimization and enhancement of titanium-based HEAs by combining multiple alloying designs. IMPACT STATEMENT For the first time, proof is given that transformation-induced plasticity was triggered in a bcc refractory high-entropy alloy, leading to a twofold increase in the normalized work-hardening rate.

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