Numerical simulation in relation to adiabatic shearing behaviors in titanium alloy

Ruihua Gao; Qunbo Fan; Fuchi Wang

doi:10.1088/1742-6596/419/1/012020

Numerical simulation in relation to adiabatic shearing behaviors in titanium alloy

Ruihua Gao^*, Qunbo Fan, Fuchi Wang

^*此作品的通讯作者

材料学院

Beijing Institute of Technology

科研成果: 期刊稿件 › 会议文章 › 同行评审

摘要

The adiabatic shearing phenomena are commonly found in titanium alloys, but they are rarely simulated in the microstructure scale. In the current study, the macro-dynamic compression is implemented and the microstructures are successfully embedded into the macro model by introducing a multiscale simulation technique, thus help to reveal the adiabatic shearing deformation mechanism of titanium alloy. The simulation results show that for the equiaxed titanium alloy, the adiabatic shearing process is determined by the phase proportion outside the shear band instead of the phase proportion inside; the study further shows that within a certain proportion of α phase, with the increase of α phase proportion, the adiabatic shear sensitivity decreases.

源语言	英语
文章编号	012020
期刊	Journal of Physics: Conference Series
卷	419
期	1
DOI	https://doi.org/10.1088/1742-6596/419/1/012020
出版状态	已出版 - 2013
活动	12th International Symposium on Multiscale, Multifunctional and Functionally Graded Materials, FGM 2012 - Beijing, 中国期限: 22 10月 2012 → 26 10月 2012

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abstract = "The adiabatic shearing phenomena are commonly found in titanium alloys, but they are rarely simulated in the microstructure scale. In the current study, the macro-dynamic compression is implemented and the microstructures are successfully embedded into the macro model by introducing a multiscale simulation technique, thus help to reveal the adiabatic shearing deformation mechanism of titanium alloy. The simulation results show that for the equiaxed titanium alloy, the adiabatic shearing process is determined by the phase proportion outside the shear band instead of the phase proportion inside; the study further shows that within a certain proportion of α phase, with the increase of α phase proportion, the adiabatic shear sensitivity decreases.",

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AU - Gao, Ruihua

AU - Fan, Qunbo

AU - Wang, Fuchi

PY - 2013

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N2 - The adiabatic shearing phenomena are commonly found in titanium alloys, but they are rarely simulated in the microstructure scale. In the current study, the macro-dynamic compression is implemented and the microstructures are successfully embedded into the macro model by introducing a multiscale simulation technique, thus help to reveal the adiabatic shearing deformation mechanism of titanium alloy. The simulation results show that for the equiaxed titanium alloy, the adiabatic shearing process is determined by the phase proportion outside the shear band instead of the phase proportion inside; the study further shows that within a certain proportion of α phase, with the increase of α phase proportion, the adiabatic shear sensitivity decreases.

AB - The adiabatic shearing phenomena are commonly found in titanium alloys, but they are rarely simulated in the microstructure scale. In the current study, the macro-dynamic compression is implemented and the microstructures are successfully embedded into the macro model by introducing a multiscale simulation technique, thus help to reveal the adiabatic shearing deformation mechanism of titanium alloy. The simulation results show that for the equiaxed titanium alloy, the adiabatic shearing process is determined by the phase proportion outside the shear band instead of the phase proportion inside; the study further shows that within a certain proportion of α phase, with the increase of α phase proportion, the adiabatic shear sensitivity decreases.

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DO - 10.1088/1742-6596/419/1/012020

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SN - 1742-6588

VL - 419

JO - Journal of Physics: Conference Series

JF - Journal of Physics: Conference Series

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T2 - 12th International Symposium on Multiscale, Multifunctional and Functionally Graded Materials, FGM 2012

Y2 - 22 October 2012 through 26 October 2012

ER -

Numerical simulation in relation to adiabatic shearing behaviors in titanium alloy

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