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Understanding the physical metallurgy of the CoCrFeMnNi high-entropy alloy: an atomistic simulation study

Authors
손석수
Issue Date
1월-2018
Publisher
NATURE PUBLISHING GROUP
Citation
NPJ COMPUTATIONAL MATERIALS, v.4
Indexed
SCIE
SCOPUS
Journal Title
NPJ COMPUTATIONAL MATERIALS
Volume
4
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/139795
DOI
10.1038/s41524-017-0060-9
ISSN
20573960
Abstract
Although high-entropy alloys (HEAs) are attracting interest, the physical metallurgical mechanisms related to their properties have mostly not been clarified, and this limits wider industrial applications, in addition to the high alloy costs. We clarify the physical metallurgical reasons for the materials phenomena (sluggish diffusion and micro-twining at cryogenic temperatures) and investigate the effect of individual elements on solid solution hardening for the equiatomic CoCrFeMnNi HEA based on atomistic simulations (Monte Carlo, molecular dynamics and molecular statics). A significant number of stable vacant lattice sites with high migration energy barriers exists and is thought to cause the sluggish diffusion. We predict that the hexagonal close-packed (hcp) structure is more stable than the face-centered cubic (fcc) structure at 0 K, which we propose as the fundamental reason for the micro-twinning at cryogenic temperatures. The alloying effect on the critical resolved shear stress (CRSS) is well predicted by the atomistic simulation, used for a design of non-equiatomic fcc HEAs with improved strength, and is experimentally verified. This study demonstrates the applicability of the proposed atomistic approach combined with a thermodynamic calculation technique to a computat
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공과대학 (신소재공학부)
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