Computational prediction of the localized necking in sheet forming based on microstructural material aspects

被引:0
|
作者
Lab. de Mecan. Appl. R. Chaleat, UMR CNRS 6604, Univ. de Franche-Comté, 24 Chemin de l'Epitaphe, 25030 Besançon Cédex, France [1 ]
机构
来源
Comput Mater Sci | / 1卷 / 45-64期
关键词
D O I
暂无
中图分类号
学科分类号
摘要
The paper deals with the influence of micro structural material aspects on the localized necking in sheet metal forming. The approach developed accounts for various micro structural material aspects as crystallographic slip, work hardening at micro structural level and lattice rotation which induces the texture evolution. The analyses are performed using the linear stability analysis combined with a polycrystalline model to build Forming Limit Diagrams and to study their evolution with the initial and induced anisotropy. © 1998 Elsevier Science B.V.
引用
收藏
相关论文
共 50 条
  • [31] Development of a heterogeneous microstructurally based finite element model for the prediction of forming limit diagram for sheet material
    Duan, Xinjian
    Jain, Mukesh
    Wilkinson, David S.
    METALLURGICAL AND MATERIALS TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE, 2006, 37A (12): : 3489 - 3501
  • [32] Development of a heterogeneous microstructurally based finite element model for the prediction of forming limit diagram for sheet material
    Xinjian Duan
    Mukesh Jain
    David S. Wilkinson
    Metallurgical and Materials Transactions A, 2006, 37 : 3489 - 3501
  • [33] Prediction of Forming Limits Based on a Coupled Approach Between Anisotropic Damage and Necking Models
    Teixeira, P.
    Cesar de Sa, J. M. A.
    Santos, A. D.
    Pires, F. M. A.
    Barata da Rocha, A.
    NUMIFORM 2010, VOLS 1 AND 2: DEDICATED TO PROFESSOR O. C. ZIENKIEWICZ (1921-2009), 2010, 1252 : 253 - +
  • [34] Plastic instability in complex strain paths and finite element simulation for localised necking prediction in sheet metal forming technology
    da Rocha, A. Barata
    Santos, Abel D.
    Teixeira, Pedro
    Butuc, M. C.
    INTERNATIONAL JOURNAL OF MATERIALS & PRODUCT TECHNOLOGY, 2008, 32 (04): : 434 - 446
  • [35] Overview on the Prediction Models for Sheet Metal Forming Failure: Necking and Ductile Fracture (vol 31, pg 259, 2018)
    Shen, Li
    ACTA MECHANICA SOLIDA SINICA, 2018, 31 (06) : 804 - 804
  • [36] Formability evaluation of sheet metal forming on advanced high-strength steel via an integrative experimental-theoretical approach based on localized necking and fracture limits
    Sansot Panich
    Komkamol Chongbunwatana
    Tanakorn Jantarasricha
    Journal of Mechanical Science and Technology, 2021, 35 : 5389 - 5404
  • [37] Formability evaluation of sheet metal forming on advanced high-strength steel via an integrative experimental-theoretical approach based on localized necking and fracture limits
    Panich, Sansot
    Chongbunwatana, Komkamol
    Jantarasricha, Tanakorn
    JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY, 2021, 35 (12) : 5389 - 5404
  • [38] Stress based prediction of formability and failure in incremental sheet forming
    Md Ziaul Haque
    Jeong Whan Yoon
    International Journal of Material Forming, 2016, 9 : 413 - 421
  • [39] Stress based prediction of formability and failure in incremental sheet forming
    Haque, Md Ziaul
    Yoon, Jeong Whan
    INTERNATIONAL JOURNAL OF MATERIAL FORMING, 2016, 9 (03) : 413 - 421
  • [40] Prediction of metal sheet forming based on a geometrical model approach
    Pascal Froitzheim
    Michael Stoltmann
    Normen Fuchs
    Christoph Woernle
    Wilko Flügge
    International Journal of Material Forming, 2020, 13 : 829 - 839
12345