Mechanical properties of vanadium carbide and a ternary vanadium tungsten carbide

Zhimei Sun; R. Ahuja; J. E. Lowther

doi:10.1016/j.ssc.2010.01.043

Mechanical properties of vanadium carbide and a ternary vanadium tungsten carbide

Zhimei Sun
, R. Ahuja^*
, J. E. Lowther

^*此作品的通讯作者

Uppsala University
Xiamen University
University of the Witwatersrand

科研成果: 期刊稿件 › 文章 › 同行评审

58 引用（Scopus）

摘要

Ab initio total energy calculations are performed on non-stoichiometric vanadium carbide with supercells representing vacancy concentrations of V C_0.875 and V C_0.75. The V C_0.875 supercell retains a cubic symmetry whilst in the case of the V C_0.75 supercell C vacancies located in close proximity have the lowest energy configuration and the cubic lattice slightly distorts to a monoclinic symmetry. Using a stress-strain calculational procedure, the elastic constants of both the cubic and the monoclinic systems are deduced. In all cases C vacancies decrease the elastic moduli. A similar analysis is then applied to consider when W is incorporated into VC. In this case it is found that the elastic moduli increase with W content suggesting that a V-W-C alloy could have significant potential as a novel hard material.

源语言	英语
页（从-至）	697-700
页数	4
期刊	Solid State Communications
卷	150
期	15-16
DOI	https://doi.org/10.1016/j.ssc.2010.01.043
出版状态	已出版 - 4月 2010
已对外发布	是

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title = "Mechanical properties of vanadium carbide and a ternary vanadium tungsten carbide",

abstract = "Ab initio total energy calculations are performed on non-stoichiometric vanadium carbide with supercells representing vacancy concentrations of V C0.875 and V C0.75. The V C0.875 supercell retains a cubic symmetry whilst in the case of the V C0.75 supercell C vacancies located in close proximity have the lowest energy configuration and the cubic lattice slightly distorts to a monoclinic symmetry. Using a stress-strain calculational procedure, the elastic constants of both the cubic and the monoclinic systems are deduced. In all cases C vacancies decrease the elastic moduli. A similar analysis is then applied to consider when W is incorporated into VC. In this case it is found that the elastic moduli increase with W content suggesting that a V-W-C alloy could have significant potential as a novel hard material.",

keywords = "A. Metals, D. Elasticity, D. Electronic band structure, D. Mechanical properties",

author = "Zhimei Sun and R. Ahuja and Lowther, \{J. E.\}",

year = "2010",

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doi = "10.1016/j.ssc.2010.01.043",

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TY - JOUR

T1 - Mechanical properties of vanadium carbide and a ternary vanadium tungsten carbide

AU - Sun, Zhimei

AU - Ahuja, R.

AU - Lowther, J. E.

PY - 2010/4

Y1 - 2010/4

N2 - Ab initio total energy calculations are performed on non-stoichiometric vanadium carbide with supercells representing vacancy concentrations of V C0.875 and V C0.75. The V C0.875 supercell retains a cubic symmetry whilst in the case of the V C0.75 supercell C vacancies located in close proximity have the lowest energy configuration and the cubic lattice slightly distorts to a monoclinic symmetry. Using a stress-strain calculational procedure, the elastic constants of both the cubic and the monoclinic systems are deduced. In all cases C vacancies decrease the elastic moduli. A similar analysis is then applied to consider when W is incorporated into VC. In this case it is found that the elastic moduli increase with W content suggesting that a V-W-C alloy could have significant potential as a novel hard material.

AB - Ab initio total energy calculations are performed on non-stoichiometric vanadium carbide with supercells representing vacancy concentrations of V C0.875 and V C0.75. The V C0.875 supercell retains a cubic symmetry whilst in the case of the V C0.75 supercell C vacancies located in close proximity have the lowest energy configuration and the cubic lattice slightly distorts to a monoclinic symmetry. Using a stress-strain calculational procedure, the elastic constants of both the cubic and the monoclinic systems are deduced. In all cases C vacancies decrease the elastic moduli. A similar analysis is then applied to consider when W is incorporated into VC. In this case it is found that the elastic moduli increase with W content suggesting that a V-W-C alloy could have significant potential as a novel hard material.

KW - A. Metals

KW - D. Elasticity

KW - D. Electronic band structure

KW - D. Mechanical properties

UR - https://www.scopus.com/pages/publications/77649340882

U2 - 10.1016/j.ssc.2010.01.043

DO - 10.1016/j.ssc.2010.01.043

M3 - 文章

AN - SCOPUS:77649340882

SN - 0038-1098

VL - 150

SP - 697

EP - 700

JO - Solid State Communications

JF - Solid State Communications

IS - 15-16

ER -

Mechanical properties of vanadium carbide and a ternary vanadium tungsten carbide

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