Constitutive analysis to predict high-temperature flow stress in 2099 Al-Li alloy

被引：0

作者：

Zhang, Fei ^{[1
,2
]}

Shen, Jian ^{[1
]}

Yan, Xiaodong ^{[1
]}

Sun, Jianlin ^{[2
]}

机构：

[1] Nonferrous Metals Processing Division, General Research Institute of Non-ferrous Metals, Beijing 100088, China

[2] University of Science and Technology Beijing, Beijing 100083, China

来源：

Xiyou Jinshu Cailiao Yu Gongcheng/Rare Metal Materials and Engineering | 2014年 / 43卷 / 06期

关键词：

Constitutive analysis for hot working of 2099 aluminum-lithium (Al-Li) alloy was carried out employing friction and temperature corrected flow curves from isothermal hot compression test; in a wide range of temperatures 300~500°C; at strain rates 0.001~10 s-1 and strains 0.1~0.7. The effects of temperature and strain rate on hot deformation behavior were represented in terms of a hyperbolic sine type Zener-Holloman (Z) parameter equation. The influence of strain was incorporated in the constitutive analysis by considering the effect of strain on material constants. Consequently; a model to predict the high-temperature flow behavior of 2099 Al-Li alloy has been established. The true stress-true strain curves predicted by the developed model are in good agreement with the experiment results throughout the deformation conditions except at 300°C in 10 s-1. Copyright © 2014; Northwest Institute for Nonferrous Metal Research. Published by Elsevier BV. All rights reserved;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

引用

页码：1312 / 1318

共 50 条

[1] Constitutive Analysis to Predict High-Temperature Flow Stress in 2099 Al-Li Alloy
Zhang Fei
Shen Jian
Yan Xiaodong
Sun Jianlin
RARE METAL MATERIALS AND ENGINEERING, 2014, 43 (06) : 1312 - 1318
[2] Microstructures and properties of 2099 Al-Li alloy
Lin, Yi
Zheng, Ziqiao
Li, Shichen
Kong, Xiang
Han, Ye
MATERIALS CHARACTERIZATION, 2013, 84 : 88 - 99
[3] Microstructures and properties of 2099 Al-Li alloy
Lin, Yi
Zheng, Zi-Qiao
Li, Shi-Chen
Kong, Xiang
Han, Ye
Zhongguo Youse Jinshu Xuebao/Chinese Journal of Nonferrous Metals, 2013, 23 (07): : 1848 - 1854
[4] Corrosion Properties of 2099 Al-Li Alloy
Lin Yi
Zheng Ziqiao
Li Shichen
Kong Xiang
Han Ye
RARE METAL MATERIALS AND ENGINEERING, 2014, 43 (06) : 1467 - 1472
[5] Homogenization heat treatment of 2099 Al-Li alloy
Zhang, Fei
Shen, Jian
Yan, Xiao-Dong
Sun, Jian-Lin
Sun, Xiao-Long
Yang, Yin
RARE METALS, 2014, 33 (01) : 28 - 36
[6] Characterization of fatigue behavior of Al-Li alloy 2099
Cisko, A. R.
Jordon, J. B.
Avery, D. Z.
McClelland, Z. B.
Liu, T.
Rushing, T. W.
Brewer, L. N.
Allison, P. G.
Garcia, L.
MATERIALS CHARACTERIZATION, 2019, 151 : 496 - 505
[7] Evolution of microstructures and properties of 2099 Al-Li alloy
Lin, Yi
Zheng, Ziqiao
Li, Shichen
Kong, Xiang
Han, Ye
Zhongnan Daxue Xuebao (Ziran Kexue Ban)/Journal of Central South University (Science and Technology), 2015, 46 (02): : 427 - 436
[8] THE EFFECT OF TEMPERATURE ON THE YIELD STRESS OF AL-LI ALLOY
FURUKAWA, M
MIURA, Y
NEMOTO, M
TRANSACTIONS OF THE JAPAN INSTITUTE OF METALS, 1985, 26 (06): : 414 - 422
[9] Constitutive modeling and processing maps of 2050 Al-Li alloy based on corrected flow stress
Dong Y.
Ye L.-Y.
Ke B.
Liu X.-D.
Zhongguo Youse Jinshu Xuebao/Chinese Journal of Nonferrous Metals, 2022, 32 (05): : 1254 - 1268
[10] Application of Four Different Models for Predicting the High-Temperature Flow Behavior of 1420 Al-Li Alloy
Yang, Yuyan
Dong, Xiaohui
Zhao, Teng
Zhou, Zhou
Qiu, Yu
Wang, Fei
Luo, Rui
METALS, 2022, 12 (12)

← 1 2 3 4 5 →