Understanding the effects of Poisson’s ratio on the shear band behavior and plasticity of metallic glasses

被引:0
|
作者
G. N. Yang
B. A. Sun
S. Q. Chen
J. L. Gu
Y. Shao
H. Wang
K. F. Yao
机构
[1] Tsinghua University,School of Material Science and Engineering
[2] Ministry of Education,Key Laboratory for Advanced Materials Processing Technology
[3] City University of Hong Kong,Centre for Advanced Structural Materials, Department of Mechanical and Biomechanical Engineering
[4] Shenzhen University,Institute of Nanosurface Science and Engineering
来源
Journal of Materials Science | 2017年 / 52卷
关键词
Shear Band; Metallic Glass; Shear Stress Distribution; Finite Element Method Simulation; Good Plasticity;
D O I
暂无
中图分类号
学科分类号
摘要
In metallic glasses, a high Poisson’s ratio often corresponds to a large plasticity and ductility. Yet the physics underpinning such a connection is still poorly understood. Here through finite element simulations, we reveal that a high Poisson’s ratio could promote the inhomogeneous stress distribution in metallic glasses. The inhomogeneous stress field could cause earlier nucleation and easier arrest of shear bands, and therefore better plasticity. Experimental results also show a trend of decreasing shear limit with Poisson’s ratio. These findings suggest that the stress inhomogeneity might be a key to understand the effects of Poisson’s ratio and loading condition on the plastic deformation behaviors of metallic glasses.
引用
收藏
页码:6789 / 6799
页数:10
相关论文
共 50 条
  • [21] Understanding the changes in ductility and Poisson's ratio of metallic glasses during annealing from microscopic dynamics
    Wang, Z.
    Ngai, K. L.
    Wang, W. H.
    JOURNAL OF APPLIED PHYSICS, 2015, 118 (03)
  • [22] Shear band feature in two bulk metallic glasses with different inherent plasticity
    Gu, Jiansheng
    Bo, Huifeng
    Li, Hong
    Zhang, Zhanxin
    ADVANCED RESEARCH ON INFORMATION SCIENCE, AUTOMATION AND MATERIAL SYSTEMS III, 2013, 703 : 20 - 23
  • [23] How to catch a shear band and explain plasticity of metallic glasses with continuum mechanics
    Glushko, Oleksandr
    Pippan, Reinhard
    Sopu, Daniel
    Mitterer, Christian
    Eckert, Juergen
    NATURE COMMUNICATIONS, 2024, 15 (01)
  • [24] Poisson's ratio of metallic glasses under pressure and low temperature
    Liu, X. F.
    Wang, R. J.
    Wang, W. H.
    SCRIPTA MATERIALIA, 2010, 62 (05) : 254 - 257
  • [25] Theoretical approach to Poisson ratio behavior during structural changes in metallic glasses
    Pineda, E
    PHYSICAL REVIEW B, 2006, 73 (10)
  • [26] Controlling shear band behavior in metallic glasses through microstructural design
    Hufnagel, TC
    Fan, C
    Ott, RT
    Li, J
    Brennan, S
    INTERMETALLICS, 2002, 10 (11-12) : 1163 - 1166
  • [27] The material-dependence of plasticity in metallic glasses: An origin from shear band thermology
    Yang, G. N.
    Shao, Y.
    Yao, K. F.
    MATERIALS & DESIGN, 2016, 96 : 189 - 194
  • [28] Towards more uniform deformation in metallic glasses: The role of Poisson's ratio
    Wei, Yujie
    Lei, Xianqi
    Huo, Li-Shan
    Wang, Wei-Hua
    Greer, A. L.
    MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2013, 560 : 510 - 517
  • [29] On the shear-band direction in metallic glasses
    Gao, Y. F.
    Wang, L.
    Bei, H.
    Nieh, T. G.
    ACTA MATERIALIA, 2011, 59 (10) : 4159 - 4167
  • [30] Strain rate-dependent shear band behavior in bulk metallic glasses
    Jiang, M. Q.
    Dai, L. H.
    DYMAT 2009: 9TH INTERNATIONAL CONFERENCE ON THE MECHANICAL AND PHYSICAL BEHAVIOUR OF MATERIALS UNDER DYNAMIC LOADING, VOL 2, 2009, : 993 - 998
12345