Finite element analysis of aluminum tube hydroforming based on non-quadratic yield function

被引:0
|
作者
Department of Neurosurgery, Medical College of Wisconsin, Milwaukee, WI 53226, United States [1 ]
不详 [2 ]
不详 [3 ]
不详 [4 ]
不详 [5 ]
不详 [6 ]
不详 [7 ]
机构
来源
Int. J. Manuf. Technol. Manage. | 2008年 / 1-2卷 / 84-99期
关键词
Anisotropy - Finite element method - Mathematical models - Polycrystalline materials - Textures;
D O I
10.1504/IJMTM.2008.017487
中图分类号
学科分类号
摘要
Although very accurate in representing the material anisotropy, finite element analysis based on direct use of a polycrystal model is CPU-intensive (Guan et al., 2006a). In the present study, this Taylor-type polycrystalline model was firstly used to predict the anisotropy coefficients of Yld96 yield function. Then this phenomenological anisotropic yield function was implemented into ABAQUS/Standard finite element code, using UMAT, for the hydroforming simulation of a 6061-T4 extruded aluminum tube. It was shown that compared with von Mises (1913) and Hill's (1948) yield function, the Yld96 material model's predictions are in better agreement with experimental data. Copyright © 2008 Inderscience Enterprises Ltd.
引用
收藏
相关论文
共 50 条
  • [31] Comparative study of finite element analysis in tube hydroforming of stainless steel 304
    P. Thanakijkasem
    A. Pattarangkun
    S. Mahabunphachai
    V. Uthaisangsuk
    S. Chutima
    International Journal of Automotive Technology, 2015, 16 : 611 - 617
  • [32] Comparative study of finite element analysis in tube hydroforming of stainless steel 304
    Thanakijkasem, P.
    Pattarangkun, A.
    Mahabunphachai, S.
    Uthaisangsuk, V.
    Chutima, S.
    INTERNATIONAL JOURNAL OF AUTOMOTIVE TECHNOLOGY, 2015, 16 (04) : 611 - 617
  • [33] NON-QUADRATIC YIELD CRITERIA, R-VALUES, AND FORMABILITY
    HOSFORD, WF
    JOURNAL OF METALS, 1985, 37 (08): : A69 - A69
  • [34] Full Three-Dimensional Cavitation Instabilities Using a Non-Quadratic Anisotropic Yield Function
    Legarth, Brian Nyvang
    Tvergaard, Viggo
    JOURNAL OF APPLIED MECHANICS-TRANSACTIONS OF THE ASME, 2020, 87 (03):
  • [35] Application of inverse finite element method in tube hydroforming modeling
    Einolghozati, Mona
    Shirin, Mehdi Bostan
    Assempour, Ahmad
    APPLIED MATHEMATICAL MODELLING, 2013, 37 (08) : 5913 - 5926
  • [36] Finite Element Simulation of Four-way Tube Hydroforming
    Wang, Shigang
    Yang, Hongshuo
    Pan, Yongge
    ADVANCED MATERIALS AND PROCESSES III, PTS 1 AND 2, 2013, 395-396 : 957 - 961
  • [37] LAGRANGE FUNCTION AND HAMILTON FUNCTION IN NON-QUADRATIC KINETIC-ENERGY
    BRUNK, G
    ZEITSCHRIFT FUR ANGEWANDTE MATHEMATIK UND MECHANIK, 1979, 59 (05): : T115 - T116
  • [38] Finite element analysis of sheet metal hydroforming
    Chang, YC
    Hwang, SM
    Kang, BS
    TRANSACTIONS OF THE NORTH AMERICAN MANUFACTURING RESEARCH INSTITUTE OF SME, VOL XXX, 2002, 2002, : 103 - 110
  • [39] Modelling non-quadratic anisotropic yield criteria and mixed isotropic-nonlinear kinematic hardening at finite strains
    Grilo, Tiago Jordao
    Vladimirov, Ivaylo Nikolov
    Fontes Valente, Robertt Angelo
    Reese, Stefanie
    MATERIAL FORMING ESAFORM 2014, 2014, 611-612 : 19 - 26
  • [40] Finite element analysis of dual hydroforming processes
    Jain, N
    Wang, JW
    Alexander, R
    JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 2004, 145 (01) : 59 - 65
12345