Journal
SCRIPTA MATERIALIA
Volume 210, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.scriptamat.2021.114450
Keywords
High-entropy alloy; Short-range order; Local chemical order; Diffusion correlation; Energy barrier
Categories
Funding
- U.S. Army Research Office [W911NF-2110150]
- National Science Foundation Materials Research Science and Engineering Center program through the UC Irvine Center for Complex and Active Materials [DMR-2011967]
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The impact of chemical short-range order (SRO) on diffusion in multi-principal elements alloys is computationally studied and theoretically analyzed. It is found that the presence of SRO considerably reduces and localizes vacancy-mediated diffusion, which is induced by an increase of migration barrier and enhanced diffusion correlation. The results imply that controlling the ordering in chemistry can potentially manipulate diffusional behaviors in multi-principal elements alloys.
The impact of chemical short-range order (SRO) on diffusion is computationally studied and theoretically analyzed in two classes of multi-principal elements alloys, fcc CrCoNi and bcc MoNbTa. We find the presence of SRO considerably reduces and localizes vacancy-mediated diffusion. The diffusivity reduction is induced by an increase of migration barrier (decreasing jump frequency) and enhanced diffusion correlation that lowers the effectiveness of atomic jumps. By sampling the diffusion pathways and associated energy barriers, a picture of SRO-stretched potential energy landscape is conceived that elucidates an increasing backward jumps and vacancy trapping effect stemming from chemical ordering. The results imply controlling the ordering in chemistry can act as a potential approach for manipulating diffusional behaviors in multi-principal elements alloys. (C) 2021 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.
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