Prediction of necking for two aluminum alloys under non-proportional loading by using an FE-based approach

被引:0
|
作者
A. Reyes
O. S. Hopperstad
T. Berstad
O.-G. Lademo
机构
[1] Norwegian University of Science and Technology (NTNU),Structural Impact Laboratory (SIMLab), Centre for Research
[2] SINTEF Materials and Chemistry,based Innovation, Department of Structural Engineering
来源
International Journal of Material Forming | 2008年 / 1卷
关键词
FE-based M-K analysis; Strain-path change; Forming limit diagrams;
D O I
暂无
中图分类号
学科分类号
摘要
Forming Limit Diagrams (FLDs) were found numerically for sheets under non-proportional loading by means of an FE-based Marciniak–Kuczynski (M-K) analysis. The material model used in the analysis includes two instability criteria; a non-local criterion to detect incipient localized necking and a through-thickness shear instability criterion. The objective was to study whether the effects of pre-straining on the FLD could be predicted by the chosen modeling approach, and compare the results from the two instability criteria. The results with the two criteria were different, but both criteria were able to capture the strong strain-path dependence of the FLDs as the governing phenomenon is plastic instability.
引用
收藏
页码:211 / 232
页数:21
相关论文
共 50 条
  • [21] Prediction of Forming Limit Diagrams for AL6111-T4 under non-proportional loading
    Chow, CL
    Yu, LG
    Tai, WH
    Demeri, MY
    [J]. INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES, 2001, 43 (02) : 471 - 486
  • [22] Low cycle fatigue life prediction of 63Sn-37Pb solder under proportional and non-proportional loading
    Chen, X
    Song, J
    Kim, KS
    [J]. INTERNATIONAL JOURNAL OF FATIGUE, 2006, 28 (07) : 757 - 766
  • [23] Accurate Analysis of Anisotropic Deformation Behavior of 5754O Aluminum Alloy Sheet under Proportional/Non-proportional Loading Paths
    Wang, Haibo
    Men, Mingliang
    Yan, Yu
    Li, Qiang
    Wan, Min
    He, Dong
    [J]. Jixie Gongcheng Xuebao/Journal of Mechanical Engineering, 2018, 54 (24): : 77 - 87
  • [24] Experiments with the X0-specimen on the effect of non-proportional loading paths on damage and fracture mechanisms in aluminum alloys
    Gerke, Steffen
    Zistl, Moritz
    Bhardwaj, Arpit
    Bruenig, Michael
    [J]. INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES, 2019, 163 : 157 - 169
  • [25] Damage-based modification for fatigue life prediction under non-proportional loadings
    Babaei, Saeid
    Ghasemi-Ghalebahman, Ahmad
    [J]. INTERNATIONAL JOURNAL OF FATIGUE, 2015, 77 : 86 - 94
  • [26] Prediction of mechanical behaviour of an ultra-thin sheet metal under non-proportional loading using a crystal plasticity model
    Bong, H. J.
    Lee, J.
    Lee, M. -G.
    [J]. 38TH INTERNATIONAL DEEP DRAWING RESEARCH GROUP ANNUAL CONFERENCE (IDDRG 2019), 2019, 651
  • [27] An empirical non-proportional cyclic plasticity approach under multiaxial low-cycle fatigue loading
    Wu, Hao
    [J]. INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES, 2018, 142 : 66 - 73
  • [28] A modification of Smith-Watson-Topper damage parameter for fatigue life prediction under non-proportional loading
    Li, J.
    Liu, J.
    Sun, Q.
    Zhang, Z. -P.
    Qiao, Y. -J.
    [J]. FATIGUE & FRACTURE OF ENGINEERING MATERIALS & STRUCTURES, 2012, 35 (04) : 301 - 316
  • [29] Fretting fatigue damage nucleation under out of phase loading using a continuum damage model for non-proportional loading
    Bhatti, Nadeem Ali
    Wahab, Magd Abdel
    [J]. TRIBOLOGY INTERNATIONAL, 2018, 121 : 204 - 213
  • [30] Path-dependent multiaxial fatigue behavior of A319 aluminum alloy under non-proportional loading conditions
    Liao, Yiping
    Liu, Xiaoshan
    He, Guoqiu
    Zhou, Zhiqiang
    Liu, Yinfu
    Wang, Qigui
    He, Qiao
    [J]. MATERIALS TESTING, 2023, 65 (05) : 684 - 698
12345