Entropy (Apr 2019)

Prediction of Strength and Ductility in Partially Recrystallized CoCrFeNiTi<sub>0.2</sub> High-Entropy Alloy

  • Hanwen Zhang,
  • Peizhi Liu,
  • Jinxiong Hou,
  • Junwei Qiao,
  • Yucheng Wu

DOI
https://doi.org/10.3390/e21040389
Journal volume & issue
Vol. 21, no. 4
p. 389

Abstract

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The mechanical behavior of a partially recrystallized fcc-CoCrFeNiTi0.2 high entropy alloys (HEA) is investigated. Temporal evolutions of the morphology, size, and volume fraction of the nanoscaled L12-(Ni,Co)3Ti precipitates at 800 °C with various aging time were quantitatively evaluated. The ultimate tensile strength can be greatly improved to ~1200 MPa, accompanied with a tensile elongation of ~20% after precipitation. The temporal exponents for the average size and number density of precipitates reasonably conform the predictions by the PV model. A composite model was proposed to describe the plastic strain of the current HEA. As a consequence, the tensile strength and tensile elongation are well predicted, which is in accord with the experimental results. The present experiment provides a theoretical reference for the strengthening of partially recrystallized single-phase HEAs in the future.

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