Prediction model for flow stress during isothermal compression in α + β phase field of TC4 alloy

Shun Yang; Hong Li; Jiao Luo; Yin Gang Liu; Miao Quan Li

doi:10.1007/s12598-018-1012-3

Prediction model for flow stress during isothermal compression in α + β phase field of TC4 alloy

Shun Yang, Hong Li, Jiao Luo, Yin Gang Liu, Miao Quan Li

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

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

7 Scopus citations

Abstract

Isothermal compression of TC4 alloy was performed on a Thermecmaster-Z simulator at the deformation temperatures ranging from 1093 to 1243 K, the strain rates ranging from 0.001 to 10.000 s ⁻¹ and a maximum strain of 0.8. The experimental results show that the flow stress increases with the decrease in the deformation temperature and the increase in the strain rate. The apparent activation energy for deformation is much lower at lower strain rates than that at higher strain rates. The flow stress model considering strain compensation was established. The average relative error between the calculated flow stress and experimental results is about 7.69%, indicating that the present model could be used to accurately predict the flow stress during high temperature in α + β phase field of TC4 alloy.

Original language	English
Pages (from-to)	369-375
Number of pages	7
Journal	Rare Metals
Volume	37
Issue number	5
DOIs	https://doi.org/10.1007/s12598-018-1012-3
State	Published - 1 May 2018

Keywords

Flow stress
Isothermal compression
Model
TC4 alloy

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10.1007/s12598-018-1012-3

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title = "Prediction model for flow stress during isothermal compression in α + β phase field of TC4 alloy",

abstract = " Isothermal compression of TC4 alloy was performed on a Thermecmaster-Z simulator at the deformation temperatures ranging from 1093 to 1243 K, the strain rates ranging from 0.001 to 10.000 s −1 and a maximum strain of 0.8. The experimental results show that the flow stress increases with the decrease in the deformation temperature and the increase in the strain rate. The apparent activation energy for deformation is much lower at lower strain rates than that at higher strain rates. The flow stress model considering strain compensation was established. The average relative error between the calculated flow stress and experimental results is about 7.69%, indicating that the present model could be used to accurately predict the flow stress during high temperature in α + β phase field of TC4 alloy.",

keywords = "Flow stress, Isothermal compression, Model, TC4 alloy",

author = "Shun Yang and Hong Li and Jiao Luo and Liu, {Yin Gang} and Li, {Miao Quan}",

note = "Publisher Copyright: {\textcopyright} 2018, The Nonferrous Metals Society of China and Springer-Verlag GmbH Germany, part of Springer Nature.",

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doi = "10.1007/s12598-018-1012-3",

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TY - JOUR

T1 - Prediction model for flow stress during isothermal compression in α + β phase field of TC4 alloy

AU - Yang, Shun

AU - Li, Hong

AU - Luo, Jiao

AU - Liu, Yin Gang

AU - Li, Miao Quan

PY - 2018/5/1

Y1 - 2018/5/1

N2 - Isothermal compression of TC4 alloy was performed on a Thermecmaster-Z simulator at the deformation temperatures ranging from 1093 to 1243 K, the strain rates ranging from 0.001 to 10.000 s −1 and a maximum strain of 0.8. The experimental results show that the flow stress increases with the decrease in the deformation temperature and the increase in the strain rate. The apparent activation energy for deformation is much lower at lower strain rates than that at higher strain rates. The flow stress model considering strain compensation was established. The average relative error between the calculated flow stress and experimental results is about 7.69%, indicating that the present model could be used to accurately predict the flow stress during high temperature in α + β phase field of TC4 alloy.

AB - Isothermal compression of TC4 alloy was performed on a Thermecmaster-Z simulator at the deformation temperatures ranging from 1093 to 1243 K, the strain rates ranging from 0.001 to 10.000 s −1 and a maximum strain of 0.8. The experimental results show that the flow stress increases with the decrease in the deformation temperature and the increase in the strain rate. The apparent activation energy for deformation is much lower at lower strain rates than that at higher strain rates. The flow stress model considering strain compensation was established. The average relative error between the calculated flow stress and experimental results is about 7.69%, indicating that the present model could be used to accurately predict the flow stress during high temperature in α + β phase field of TC4 alloy.

KW - Flow stress

KW - Isothermal compression

KW - Model

KW - TC4 alloy

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DO - 10.1007/s12598-018-1012-3

M3 - 文章

AN - SCOPUS:85044073102

SN - 1001-0521

VL - 37

SP - 369

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JO - Rare Metals

JF - Rare Metals

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Prediction model for flow stress during isothermal compression in α + β phase field of TC4 alloy

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