Journal
JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T
Volume 23, Issue -, Pages 4376-4384Publisher
ELSEVIER
DOI: 10.1016/j.jmrt.2023.02.074
Keywords
AlFeCoNiMo0; 2 high-entropy alloy; Dynamic recrystallization; Physical models; Hot deformation; Microstructure evolution
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The Gleeble-3800 thermomechanical simulator unit was used to conduct single-pass hot compression tests on the AlFeCoNiMo0.2 high-entropy alloy with a single-phase BCC structure, at deformation temperatures ranging from 950 to 1150 degrees Celsius, and strain rates ranging from 0.001 to 1s-1. The study investigated the hot deformation behavior of the alloy, determined the dynamic recrystallization critical strain based on the work hardening rate, and revealed the dynamic recrystallization mechanism of the alloy using microstructure characterization techniques.
The Gleeble-3800 thermomechanical simulator unit was used to perform single-pass hot compression tests of the single-phase BCC structure AlFeCoNiMo0.2 high-entropy alloy at the deformation temperature of 950-1150 degrees C and strain rate of 0.001-1s-1. The hot deformation behavior of the alloy was studied, and the dynamic recrystallization critical strain was determined by the work hardening rate. The dynamic recrystallization mechanism of the alloy was revealed with the microstructure characterization techcique. The study results showed: The dynamic recrystallization critical strain of AlFeCoNiMo0.2 high entropy alloy did not show any notable dependency on the deformation temperature and strain rate. Without reaching the recrystallization temperature, the massive generation of subgrain structures suppresses the formation of dynamic recrystallization grains. The nucleation mechanism of the high-entropy alloy is subgrain merging mechanism caused by dislocation motion. (c) 2023 The Author(s). Published by Elsevier B.V. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
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