The anisotropy of three-component medium entropy alloys in AlCoCrFeNi system: First-principle studies

Yuhong Zhao; Shuo Wang; Bing Zhang; Ye Yuan; Qingwei Guo; Hua Hou

doi:10.1016/j.jssc.2019.05.003

The anisotropy of three-component medium entropy alloys in AlCoCrFeNi system: First-principle studies

Yuhong Zhao^*, Shuo Wang, Bing Zhang, Ye Yuan, Qingwei Guo, Hua Hou

^*此作品的通讯作者

North University of China

科研成果: 期刊稿件 › 文章 › 同行评审

21 引用（Scopus）

摘要

A theoretical investigation of the anisotropy of face-centered-cubic (FCC) and body-centered (BCC) medium entropy alloys (MEAs) based on the first-principle calculations has been implemented. The electronegativity difference Δ_χ, mixing enthalpy ΔH_mix, range of electronegativity R_χ and total charge transfer have been considered. All elastic anisotropies of the selected MEAs change monotonously with the electronegativity difference Δ_χ, more specifically, the anisotropy decreases with decreasing electronegativity difference Δ_χ. A detailed investigation of electronic structure reveals that charges are mainly accumulated around the atom with minimal Pauling electronegativity (χ) and valence electron concentration (VEC), resulting in a high anisotropy of MEAs. For Al-containing MEAs, a substantial number of total charge transfer will lead to a great anisotropy. In addition, the range of electronegativity R_χ can be used to assist in identifying the anisotropy in the localized electron distribution.

源语言	英语
页（从-至）	232-237
页数	6
期刊	Journal of Solid State Chemistry
卷	276
DOI	https://doi.org/10.1016/j.jssc.2019.05.003
出版状态	已出版 - 8月 2019
已对外发布	是

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title = "The anisotropy of three-component medium entropy alloys in AlCoCrFeNi system: First-principle studies",

abstract = "A theoretical investigation of the anisotropy of face-centered-cubic (FCC) and body-centered (BCC) medium entropy alloys (MEAs) based on the first-principle calculations has been implemented. The electronegativity difference Δχ, mixing enthalpy ΔHmix, range of electronegativity Rχ and total charge transfer have been considered. All elastic anisotropies of the selected MEAs change monotonously with the electronegativity difference Δχ, more specifically, the anisotropy decreases with decreasing electronegativity difference Δχ. A detailed investigation of electronic structure reveals that charges are mainly accumulated around the atom with minimal Pauling electronegativity (χ) and valence electron concentration (VEC), resulting in a high anisotropy of MEAs. For Al-containing MEAs, a substantial number of total charge transfer will lead to a great anisotropy. In addition, the range of electronegativity Rχ can be used to assist in identifying the anisotropy in the localized electron distribution.",

keywords = "Anisotropy, Electronic properties, Medium entropy alloys",

author = "Yuhong Zhao and Shuo Wang and Bing Zhang and Ye Yuan and Qingwei Guo and Hua Hou",

note = "Publisher Copyright: {\textcopyright} 2019 Elsevier Inc.",

year = "2019",

month = aug,

doi = "10.1016/j.jssc.2019.05.003",

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T1 - The anisotropy of three-component medium entropy alloys in AlCoCrFeNi system

T2 - First-principle studies

AU - Zhao, Yuhong

AU - Wang, Shuo

AU - Zhang, Bing

AU - Yuan, Ye

AU - Guo, Qingwei

AU - Hou, Hua

PY - 2019/8

Y1 - 2019/8

N2 - A theoretical investigation of the anisotropy of face-centered-cubic (FCC) and body-centered (BCC) medium entropy alloys (MEAs) based on the first-principle calculations has been implemented. The electronegativity difference Δχ, mixing enthalpy ΔHmix, range of electronegativity Rχ and total charge transfer have been considered. All elastic anisotropies of the selected MEAs change monotonously with the electronegativity difference Δχ, more specifically, the anisotropy decreases with decreasing electronegativity difference Δχ. A detailed investigation of electronic structure reveals that charges are mainly accumulated around the atom with minimal Pauling electronegativity (χ) and valence electron concentration (VEC), resulting in a high anisotropy of MEAs. For Al-containing MEAs, a substantial number of total charge transfer will lead to a great anisotropy. In addition, the range of electronegativity Rχ can be used to assist in identifying the anisotropy in the localized electron distribution.

AB - A theoretical investigation of the anisotropy of face-centered-cubic (FCC) and body-centered (BCC) medium entropy alloys (MEAs) based on the first-principle calculations has been implemented. The electronegativity difference Δχ, mixing enthalpy ΔHmix, range of electronegativity Rχ and total charge transfer have been considered. All elastic anisotropies of the selected MEAs change monotonously with the electronegativity difference Δχ, more specifically, the anisotropy decreases with decreasing electronegativity difference Δχ. A detailed investigation of electronic structure reveals that charges are mainly accumulated around the atom with minimal Pauling electronegativity (χ) and valence electron concentration (VEC), resulting in a high anisotropy of MEAs. For Al-containing MEAs, a substantial number of total charge transfer will lead to a great anisotropy. In addition, the range of electronegativity Rχ can be used to assist in identifying the anisotropy in the localized electron distribution.

KW - Anisotropy

KW - Electronic properties

KW - Medium entropy alloys

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JO - Journal of Solid State Chemistry

JF - Journal of Solid State Chemistry

ER -

The anisotropy of three-component medium entropy alloys in AlCoCrFeNi system: First-principle studies

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