Comparative Analysis of 3 Constitutive Models for 93 Tungsten Alloy

Qing Shan Chen; Ying Gang Miao; Ya Zhou Guo; Yu Long Li

doi:10.11858/gywlxb.2017.06.010

Comparative Analysis of 3 Constitutive Models for 93 Tungsten Alloy

Qing Shan Chen, Ying Gang Miao, Ya Zhou Guo, Yu Long Li

Northwestern Polytechnical University Xian

科研成果: 期刊稿件 › 文章 › 同行评审

5 引用（Scopus）

摘要

In this research, we carried out a systematic study of the mechanical behaviors of the 93 tungsten alloy (93%W-4.9%Ni-2.1%Fe) with a temperature range of 296-1273 K and a strain rate range of 0.000 5-6000 s^-1. The results demonstrate that the flow stress is highly dependent on the temperature and the strain rate: the flow stress increases with the decrease of temperature and the increase of strain rate, and the shear failure does not occur when the true plastic strain is up to 0.6. Then we introduced and established 3 constitutive models, including two phenomenological constitutive models, JC model and KHL model and one physically-based constitutive model, to fit the stress-strain relationship through a procedure of regression analysis and constrained optimization. Finally, we evaluated the fitted results of the 3 constitutive models through a fitting error analysis and a specific strain-rate jump experiment.

源语言	英语
页（从-至）	753-760
页数	8
期刊	Gaoya Wuli Xuebao/Chinese Journal of High Pressure Physics
卷	31
期	6
DOI	https://doi.org/10.11858/gywlxb.2017.06.010
出版状态	已出版 - 25 12月 2017

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title = "Comparative Analysis of 3 Constitutive Models for 93 Tungsten Alloy",

abstract = "In this research, we carried out a systematic study of the mechanical behaviors of the 93 tungsten alloy (93%W-4.9%Ni-2.1%Fe) with a temperature range of 296-1273 K and a strain rate range of 0.000 5-6000 s-1. The results demonstrate that the flow stress is highly dependent on the temperature and the strain rate: the flow stress increases with the decrease of temperature and the increase of strain rate, and the shear failure does not occur when the true plastic strain is up to 0.6. Then we introduced and established 3 constitutive models, including two phenomenological constitutive models, JC model and KHL model and one physically-based constitutive model, to fit the stress-strain relationship through a procedure of regression analysis and constrained optimization. Finally, we evaluated the fitted results of the 3 constitutive models through a fitting error analysis and a specific strain-rate jump experiment.",

keywords = "Constitutive model, Plastic flow stress, Tungsten alloy",

author = "Chen, {Qing Shan} and Miao, {Ying Gang} and Guo, {Ya Zhou} and Li, {Yu Long}",

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language = "英语",

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AU - Chen, Qing Shan

AU - Miao, Ying Gang

AU - Guo, Ya Zhou

AU - Li, Yu Long

PY - 2017/12/25

Y1 - 2017/12/25

N2 - In this research, we carried out a systematic study of the mechanical behaviors of the 93 tungsten alloy (93%W-4.9%Ni-2.1%Fe) with a temperature range of 296-1273 K and a strain rate range of 0.000 5-6000 s-1. The results demonstrate that the flow stress is highly dependent on the temperature and the strain rate: the flow stress increases with the decrease of temperature and the increase of strain rate, and the shear failure does not occur when the true plastic strain is up to 0.6. Then we introduced and established 3 constitutive models, including two phenomenological constitutive models, JC model and KHL model and one physically-based constitutive model, to fit the stress-strain relationship through a procedure of regression analysis and constrained optimization. Finally, we evaluated the fitted results of the 3 constitutive models through a fitting error analysis and a specific strain-rate jump experiment.

AB - In this research, we carried out a systematic study of the mechanical behaviors of the 93 tungsten alloy (93%W-4.9%Ni-2.1%Fe) with a temperature range of 296-1273 K and a strain rate range of 0.000 5-6000 s-1. The results demonstrate that the flow stress is highly dependent on the temperature and the strain rate: the flow stress increases with the decrease of temperature and the increase of strain rate, and the shear failure does not occur when the true plastic strain is up to 0.6. Then we introduced and established 3 constitutive models, including two phenomenological constitutive models, JC model and KHL model and one physically-based constitutive model, to fit the stress-strain relationship through a procedure of regression analysis and constrained optimization. Finally, we evaluated the fitted results of the 3 constitutive models through a fitting error analysis and a specific strain-rate jump experiment.

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Comparative Analysis of 3 Constitutive Models for 93 Tungsten Alloy

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