First-Principles Calculations on Structural Property and Anisotropic Elasticity of γ1-Ti4Nb3Al9 under Pressure

First-Principles Calculations on Structural Property and Anisotropic Elasticity of γ1-Ti4Nb3Al9 under Pressure

The effect of pressure on the structural property and anisotropic elasticity of γ 1 -Ti 4 Nb 3 Al 9 phase has been investigated in this paper by using first-principles calculations. The obtained bulk properties at zero pressure are in good agreement with the pr...

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Main Authors: Xianshi Zeng, Rufang Peng, Yanlin Yu, Zuofu Hu, Yufeng Wen, Lin Song
Format: Article
Language:English
Published: MDPI AG 2018-10-01
Series:Materials
Subjects:
γ1-Ti4Nb3Al9
structural property
anisotropic elasticity
pressure effect
first-principles
Online Access:http://www.mdpi.com/1996-1944/11/10/2025
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spelling doaj-67cb44a087f34306a647cb5915012e202020-11-25T01:02:25ZengMDPI AGMaterials1996-19442018-10-011110202510.3390/ma11102025ma11102025First-Principles Calculations on Structural Property and Anisotropic Elasticity of γ1-Ti4Nb3Al9 under PressureXianshi Zeng0Rufang Peng1Yanlin Yu2Zuofu Hu3Yufeng Wen4Lin Song5Research Center of Laser Fusion, China Academy of Engineering Physics, Mianyang 621900, ChinaState Key Laboratory for Environment-friendly Energy Materials, Southwest University of Science and Technology, Mianyang 621010, ChinaSchool of Mathematical Sciences and Physics, Jinggangshan University, Ji’an 343009, China; yuyanlin <email>121@163.com</email> (Y.Y.)School of Mathematical Sciences and Physics, Jinggangshan University, Ji’an 343009, China; yuyanlin <email>121@163.com</email> (Y.Y.)School of Mathematical Sciences and Physics, Jinggangshan University, Ji’an 343009, China; yuyanlin <email>121@163.com</email> (Y.Y.)State Key Laboratory of Solidification Processing, Northwestern Polytechnical University, Xi’an 710072, ChinaThe effect of pressure on the structural property and anisotropic elasticity of &gamma; 1 -Ti 4 Nb 3 Al 9 phase has been investigated in this paper by using first-principles calculations. The obtained bulk properties at zero pressure are in good agreement with the previous data. The structural property and elastic constants under pressures up to 40 GPa have been obtained. According to the elastic stability conditions under isotropic pressure, the phase is found to be mechanically stable under pressures up to 37.3 GPa. From the obtained elastic constants, the elastic moduli, anisotropic factors and acoustic velocities under different pressures have also been obtained successfully together with minimum thermal conductivities and Debye temperature. It is shown that the ductility of the phase is improved and its anisotropy and Debye temperature are enhanced with increasing the pressure.http://www.mdpi.com/1996-1944/11/10/2025γ1-Ti4Nb3Al9structural propertyanisotropic elasticitypressure effectfirst-principles
collection DOAJ
language English
format Article
sources DOAJ
author Xianshi Zeng
Rufang Peng
Yanlin Yu
Zuofu Hu
Yufeng Wen
Lin Song
spellingShingle Xianshi Zeng
Rufang Peng
Yanlin Yu
Zuofu Hu
Yufeng Wen
Lin Song
First-Principles Calculations on Structural Property and Anisotropic Elasticity of γ1-Ti4Nb3Al9 under Pressure
Materials
γ1-Ti4Nb3Al9
structural property
anisotropic elasticity
pressure effect
first-principles
author_facet Xianshi Zeng
Rufang Peng
Yanlin Yu
Zuofu Hu
Yufeng Wen
Lin Song
author_sort Xianshi Zeng
title First-Principles Calculations on Structural Property and Anisotropic Elasticity of γ1-Ti4Nb3Al9 under Pressure
title_short First-Principles Calculations on Structural Property and Anisotropic Elasticity of γ1-Ti4Nb3Al9 under Pressure
title_full First-Principles Calculations on Structural Property and Anisotropic Elasticity of γ1-Ti4Nb3Al9 under Pressure
title_fullStr First-Principles Calculations on Structural Property and Anisotropic Elasticity of γ1-Ti4Nb3Al9 under Pressure
title_full_unstemmed First-Principles Calculations on Structural Property and Anisotropic Elasticity of γ1-Ti4Nb3Al9 under Pressure
title_sort first-principles calculations on structural property and anisotropic elasticity of γ1-ti4nb3al9 under pressure
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2018-10-01
description The effect of pressure on the structural property and anisotropic elasticity of &gamma; 1 -Ti 4 Nb 3 Al 9 phase has been investigated in this paper by using first-principles calculations. The obtained bulk properties at zero pressure are in good agreement with the previous data. The structural property and elastic constants under pressures up to 40 GPa have been obtained. According to the elastic stability conditions under isotropic pressure, the phase is found to be mechanically stable under pressures up to 37.3 GPa. From the obtained elastic constants, the elastic moduli, anisotropic factors and acoustic velocities under different pressures have also been obtained successfully together with minimum thermal conductivities and Debye temperature. It is shown that the ductility of the phase is improved and its anisotropy and Debye temperature are enhanced with increasing the pressure.
topic γ1-Ti4Nb3Al9
structural property
anisotropic elasticity
pressure effect
first-principles
url http://www.mdpi.com/1996-1944/11/10/2025
work_keys_str_mv AT xianshizeng firstprinciplescalculationsonstructuralpropertyandanisotropicelasticityofg1ti4nb3al9underpressure
AT rufangpeng firstprinciplescalculationsonstructuralpropertyandanisotropicelasticityofg1ti4nb3al9underpressure
AT yanlinyu firstprinciplescalculationsonstructuralpropertyandanisotropicelasticityofg1ti4nb3al9underpressure
AT zuofuhu firstprinciplescalculationsonstructuralpropertyandanisotropicelasticityofg1ti4nb3al9underpressure
AT yufengwen firstprinciplescalculationsonstructuralpropertyandanisotropicelasticityofg1ti4nb3al9underpressure
AT linsong firstprinciplescalculationsonstructuralpropertyandanisotropicelasticityofg1ti4nb3al9underpressure
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