Novel high-entropy alloys with high-density ε-D019 and abnormal phase transformation

G. H. Xia; Z. L. Ma; Z. Q. Xu; M. Wang; X. W. Cheng; H. N. Cai

doi:10.1016/j.scriptamat.2021.113893

Novel high-entropy alloys with high-density ε-D0₁₉ and abnormal phase transformation

G. H. Xia, Z. L. Ma^*, Z. Q. Xu, M. Wang, X. W. Cheng, H. N. Cai

^*此作品的通讯作者

材料学院

Beijing Institute of Technology

科研成果: 期刊稿件 › 文章 › 同行评审

19 引用（Scopus）

摘要

Precipitation strengthening is considered to be one of the most effective ways to improve engineering structural materials. However, introducing high-density nanoprecipitates in alloys is a big challenge. In this study, novel CoFeNiVTa(Nb) high-entropy alloys (HEAs) with high-density ε-D0₁₉ nanoprecipitates featuring Widmanstätten patterns and coherent interfaces with the matrix are developed using the lattice misfit design concept. The highly ordered hexagonal ε-D0₁₉ phase is identified as (Co, Ni, Fe)₃(V, Nb, Ta, Fe) by atomic resolution energy dispersive spectrometry and this phase is metastable and can be abnormally transformed into δ-D0_a phase instead of η-D0₂₄. The superior thermodynamic stability of the δ phase compared with the ε phase is confirmed by first-principle calculations. High-density ε-D0₁₉ precipitates with Widmanstätten patterns contribute to the improved strengthens and friction properties of CoFeNiVTa(Nb) HEAs.

源语言	英语
文章编号	113893
期刊	Scripta Materialia
卷	199
DOI	https://doi.org/10.1016/j.scriptamat.2021.113893
出版状态	已出版 - 1 7月 2021

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title = "Novel high-entropy alloys with high-density ε-D019 and abnormal phase transformation",

abstract = "Precipitation strengthening is considered to be one of the most effective ways to improve engineering structural materials. However, introducing high-density nanoprecipitates in alloys is a big challenge. In this study, novel CoFeNiVTa(Nb) high-entropy alloys (HEAs) with high-density ε-D019 nanoprecipitates featuring Widmanst{\"a}tten patterns and coherent interfaces with the matrix are developed using the lattice misfit design concept. The highly ordered hexagonal ε-D019 phase is identified as (Co, Ni, Fe)3(V, Nb, Ta, Fe) by atomic resolution energy dispersive spectrometry and this phase is metastable and can be abnormally transformed into δ-D0a phase instead of η-D024. The superior thermodynamic stability of the δ phase compared with the ε phase is confirmed by first-principle calculations. High-density ε-D019 precipitates with Widmanst{\"a}tten patterns contribute to the improved strengthens and friction properties of CoFeNiVTa(Nb) HEAs.",

keywords = "High-entropy alloys, Phase transformation, Precipitation strengthening, Widmanst{\"a}tten pattern",

author = "Xia, {G. H.} and Ma, {Z. L.} and Xu, {Z. Q.} and M. Wang and Cheng, {X. W.} and Cai, {H. N.}",

note = "Publisher Copyright: {\textcopyright} 2021",

year = "2021",

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doi = "10.1016/j.scriptamat.2021.113893",

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T1 - Novel high-entropy alloys with high-density ε-D019 and abnormal phase transformation

AU - Xia, G. H.

AU - Ma, Z. L.

AU - Xu, Z. Q.

AU - Wang, M.

AU - Cheng, X. W.

AU - Cai, H. N.

PY - 2021/7/1

Y1 - 2021/7/1

N2 - Precipitation strengthening is considered to be one of the most effective ways to improve engineering structural materials. However, introducing high-density nanoprecipitates in alloys is a big challenge. In this study, novel CoFeNiVTa(Nb) high-entropy alloys (HEAs) with high-density ε-D019 nanoprecipitates featuring Widmanstätten patterns and coherent interfaces with the matrix are developed using the lattice misfit design concept. The highly ordered hexagonal ε-D019 phase is identified as (Co, Ni, Fe)3(V, Nb, Ta, Fe) by atomic resolution energy dispersive spectrometry and this phase is metastable and can be abnormally transformed into δ-D0a phase instead of η-D024. The superior thermodynamic stability of the δ phase compared with the ε phase is confirmed by first-principle calculations. High-density ε-D019 precipitates with Widmanstätten patterns contribute to the improved strengthens and friction properties of CoFeNiVTa(Nb) HEAs.

AB - Precipitation strengthening is considered to be one of the most effective ways to improve engineering structural materials. However, introducing high-density nanoprecipitates in alloys is a big challenge. In this study, novel CoFeNiVTa(Nb) high-entropy alloys (HEAs) with high-density ε-D019 nanoprecipitates featuring Widmanstätten patterns and coherent interfaces with the matrix are developed using the lattice misfit design concept. The highly ordered hexagonal ε-D019 phase is identified as (Co, Ni, Fe)3(V, Nb, Ta, Fe) by atomic resolution energy dispersive spectrometry and this phase is metastable and can be abnormally transformed into δ-D0a phase instead of η-D024. The superior thermodynamic stability of the δ phase compared with the ε phase is confirmed by first-principle calculations. High-density ε-D019 precipitates with Widmanstätten patterns contribute to the improved strengthens and friction properties of CoFeNiVTa(Nb) HEAs.

KW - High-entropy alloys

KW - Phase transformation

KW - Precipitation strengthening

KW - Widmanstätten pattern

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DO - 10.1016/j.scriptamat.2021.113893

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VL - 199

JO - Scripta Materialia

JF - Scripta Materialia

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Novel high-entropy alloys with high-density ε-D019 and abnormal phase transformation

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Novel high-entropy alloys with high-density ε-D0₁₉ and abnormal phase transformation