First-principles prediction of ductility in β-type Ti-Mo binary alloys

Min Jie Lai; Xiang Yi Xue; Zhong Bo Zhou; Bin Tang; Jin Shan Li; Lian Zhou

doi:10.1007/s12204-011-1127-2

First-principles prediction of ductility in β-type Ti-Mo binary alloys

Min Jie Lai, Xiang Yi Xue, Zhong Bo Zhou, Bin Tang, Jin Shan Li, Lian Zhou

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Recent studies suggest that the ratio of the shear modulus (G) to the bulk modulus (B) and the Poisson's ratio (ν) are good indicators of ductility. Using the method of supercell and the first-principles pseudopotential plane-wave method, the G/B and ν of the β-type Ti-Mo binary alloys with Mo molar fraction (x _Mo) ranging from 6.25% to 37.5% are calculated. The results show that the ductility of β-type Ti-Mo binary alloys first increases with increasing x _Mo and reaches the maximum when x _Mo is about 25%, and then reduces with more increasing x _Mo. The charge density difference calculations suggest that the x _Mo dependence of the ductility can be ascribed to the change of bonding characteristics between Ti and Mo atoms in the [111] direction.

Original language	English
Pages (from-to)	227-230
Number of pages	4
Journal	Journal of Shanghai Jiaotong University (Science)
Volume	16
Issue number	2
DOIs	https://doi.org/10.1007/s12204-011-1127-2
State	Published - Apr 2011

Keywords

charge density difference
ductility
first-principles
Ti-Mo alloys

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10.1007/s12204-011-1127-2

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title = "First-principles prediction of ductility in β-type Ti-Mo binary alloys",

abstract = "Recent studies suggest that the ratio of the shear modulus (G) to the bulk modulus (B) and the Poisson's ratio (ν) are good indicators of ductility. Using the method of supercell and the first-principles pseudopotential plane-wave method, the G/B and ν of the β-type Ti-Mo binary alloys with Mo molar fraction (x Mo) ranging from 6.25% to 37.5% are calculated. The results show that the ductility of β-type Ti-Mo binary alloys first increases with increasing x Mo and reaches the maximum when x Mo is about 25%, and then reduces with more increasing x Mo. The charge density difference calculations suggest that the x Mo dependence of the ductility can be ascribed to the change of bonding characteristics between Ti and Mo atoms in the [111] direction.",

keywords = "charge density difference, ductility, first-principles, Ti-Mo alloys",

author = "Lai, {Min Jie} and Xue, {Xiang Yi} and Zhou, {Zhong Bo} and Bin Tang and Li, {Jin Shan} and Lian Zhou",

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T1 - First-principles prediction of ductility in β-type Ti-Mo binary alloys

AU - Lai, Min Jie

AU - Xue, Xiang Yi

AU - Zhou, Zhong Bo

AU - Tang, Bin

AU - Li, Jin Shan

AU - Zhou, Lian

PY - 2011/4

Y1 - 2011/4

N2 - Recent studies suggest that the ratio of the shear modulus (G) to the bulk modulus (B) and the Poisson's ratio (ν) are good indicators of ductility. Using the method of supercell and the first-principles pseudopotential plane-wave method, the G/B and ν of the β-type Ti-Mo binary alloys with Mo molar fraction (x Mo) ranging from 6.25% to 37.5% are calculated. The results show that the ductility of β-type Ti-Mo binary alloys first increases with increasing x Mo and reaches the maximum when x Mo is about 25%, and then reduces with more increasing x Mo. The charge density difference calculations suggest that the x Mo dependence of the ductility can be ascribed to the change of bonding characteristics between Ti and Mo atoms in the [111] direction.

AB - Recent studies suggest that the ratio of the shear modulus (G) to the bulk modulus (B) and the Poisson's ratio (ν) are good indicators of ductility. Using the method of supercell and the first-principles pseudopotential plane-wave method, the G/B and ν of the β-type Ti-Mo binary alloys with Mo molar fraction (x Mo) ranging from 6.25% to 37.5% are calculated. The results show that the ductility of β-type Ti-Mo binary alloys first increases with increasing x Mo and reaches the maximum when x Mo is about 25%, and then reduces with more increasing x Mo. The charge density difference calculations suggest that the x Mo dependence of the ductility can be ascribed to the change of bonding characteristics between Ti and Mo atoms in the [111] direction.

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KW - first-principles

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First-principles prediction of ductility in β-type Ti-Mo binary alloys

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