Modelling of constitutive equations to describe hot deformation of 99-9% pure aluminium

被引:3
|
作者
Murty, SVSN [1 ]
Rao, BN
机构
[1] Vikram Sarabhai Space Ctr, Mat & Met Grp, Trivandrum 695022, Kerala, India
[2] Vikram Sarabhai Space Ctr, Struct Engn Grp, Trivandrum 695022, Kerala, India
来源
MATERIALS SCIENCE AND TECHNOLOGY | 1999年 / 15卷 / 05期
关键词
D O I
10.1179/026708399101506166
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Constitutive equations which relate the flow stress to the strain, strain rate, and temperature are useful in metal forming problems and more attractive than experimental data to designers. These equations may be valid only for the range of parameters where actual measurements were made and be inadequate for extrapolation since it is impossible to generalise the validity of these equations for every material. An interpolation scheme (cubic spline fit) used in this study is more satisfactory than the existing constitutive relations used to describe the hot deformation of 99.9% pure aluminium. MST/4067
引用
收藏
页码:599 / 600
页数:2
相关论文
共 50 条
  • [1] A set of unified constitutive equations for modelling microstructure evolution in hot deformation
    Lin, J
    Liu, Y
    JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 2003, 143 : 281 - 285
  • [2] Modelling recrystallization after hot deformation of aluminium
    Vatne, HE
    Furu, T
    Orsund, R
    Nes, E
    ACTA MATERIALIA, 1996, 44 (11) : 4463 - 4473
  • [3] Modelling hot deformation and textures of aluminium alloys
    Driver, Julian
    Perocheau, Franck
    Maurice, Claire
    Materials Science Forum, 2000, 331
  • [4] Modelling hot deformation and textures of aluminium alloys
    Driver, J
    Perocheau, F
    Maurice, C
    ALUMINIUM ALLOYS: THEIR PHYSICAL AND MECHANICAL PROPERTIES, PTS 1-3, 2000, 331-3 : 43 - 56
  • [5] Development of constitutive equations for modelling of hot rolling
    Davenport, SB
    Silk, NJ
    Sparks, CN
    Sellars, CM
    MATERIALS SCIENCE AND TECHNOLOGY, 2000, 16 (05) : 539 - 546
  • [6] Modelling of the hot deformation behaviour of a titanium alloy using constitutive equations and artificial neural network
    Zhao, Jingwei
    Ding, Hua
    Zhao, Wenjuan
    Huang, Mingli
    Wei, Dongbin
    Jiang, Zhengyi
    COMPUTATIONAL MATERIALS SCIENCE, 2014, 92 : 47 - 56
  • [7] Constitutive modelling of hot deformation behaviour of metallic materials
    Zhu, Hui
    Ou, Hengan
    MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2022, 832
  • [8] Physical constitutive modelling of hot deformation of titanium matrix composites
    Wang, Shisong
    Deng, Xingqiao
    Gao, Pengfei
    Ren, Zhipeng
    Wang, Xianxian
    Feng, Huiling
    Zeng, Liyuan
    Zhang, Zhendong
    INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES, 2024, 262
  • [9] Nonlinear multivariate constitutive equations for modeling hot deformation behavior
    Ahmedabadi, Parag M.
    MATERIALS RESEARCH EXPRESS, 2023, 10 (09)
  • [10] Constitutive Equation and Processing Parameter Sensitivities for Hot Deformation of Pure Mo
    Yao, Liying
    He, Yuan
    Xu, Liujie
    Li, Zhou
    Gao, Yimin
    Zhang, Guojun
    METALS AND MATERIALS INTERNATIONAL, 2025,
12345