Dislocation structure of plastic relaxation waves in polycrystals and alloys under intense shock wave loading

被引:4
|
作者
Malygin, G. A. [1 ,2 ]
Ogarkov, S. L. [2 ]
Andriyash, A. V. [2 ]
机构
[1] Russian Acad Sci, Ioffe Phys Tech Inst, St Petersburg 194021, Russia
[2] Russian Acad Sci, AF Ioffe Phys Tech Inst, St Petersburg 194021, Russia
来源
PHYSICS OF THE SOLID STATE | 2014年 / 56卷 / 11期
关键词
STRAIN-RATE; DEFORMATION; COMPRESSION; ALUMINUM; CRYSTALS; COPPER;
D O I
10.1134/S1063783414110183
中图分类号
O469 [凝聚态物理学];
学科分类号
070205 ;
摘要
The influence of the structure factors (sizes of grains and precipitates) on the dislocation structure formed in polycrystals and alloys behind the shock wave front (elastic precursor) has been theoretically discussed in terms of the dislocation kinetic relationships and kinetic equation for the dislocation density. The critical conditions of the transition from the cellular dislocation structure to a uniform dislocation distribution have been formulated. These conditions are used to determine the dependences of the critical pressure, above which the dislocation distribution becomes uniform, on the grain size and precipitate volume density.
引用
收藏
页码:2239 / 2246
页数:8
相关论文
共 50 条
  • [41] Effect of shock-wave loading conditions on the behavior of a PETN-based plastic explosive
    Golubev, VK
    Pogorelov, AP
    COMBUSTION EXPLOSION AND SHOCK WAVES, 2001, 37 (02) : 219 - 224
  • [42] Influence of directional strength-to-stiffness on the elastic-plastic transition of fcc polycrystals under uniaxial tensile loading
    Wong, S. L.
    Dawson, P. R.
    ACTA MATERIALIA, 2010, 58 (05) : 1658 - 1678
  • [43] Embedding sensors in composite plates for characterization under impacting shock wave loading
    Jahnke, Doug
    Yildiz, Salih
    Andreopoulos, Yiannis
    JOURNAL OF COMPOSITE MATERIALS, 2018, 52 (27) : 3831 - 3850
  • [44] Simulation of Tantalum Nanocrystals Under Shock-Wave Loading: Dislocations and Twinning
    Tramontina, D. R.
    Hahn, E. N.
    Meyers, M. A.
    Bringa, E. M.
    SHOCK COMPRESSION OF CONDENSED MATTER - 2015, 2017, 1793
  • [45] How does spallation microdamage nucleate in bulk amorphous alloys under shock loading?
    Huang, X.
    Ling, Z.
    Zhang, H. S.
    Ma, J.
    Dai, L. H.
    JOURNAL OF APPLIED PHYSICS, 2011, 110 (10)
  • [46] Dynamic properties of zirconium alloy E110 under shock-wave loading of submicrosecond duration
    Kazakov, D. N.
    Kozelkov, O. E.
    Maiorova, A. S.
    Malyugina, S. N.
    Mokrushin, S. S.
    Pavlenko, A. V.
    MECHANICS OF SOLIDS, 2014, 49 (06) : 657 - 665
  • [47] Cooperative dislocations for pressure-dependent sequential deformation of multi-principal element alloys under shock loading
    Zhang, Fan
    Ren, Yu
    Pei, Zongrui
    Gao, Qingyang
    Lu, Zhen
    Wang, Benpeng
    Xue, Yunfei
    Cao, Xumeng
    Du, Kui
    Yang, Yang
    Li, Bin
    Cheng, Xingwang
    Chen, Mingwei
    ACTA MATERIALIA, 2024, 276
  • [48] Deformation behavior of copper under conditions of loading by spherically converging shock waves: High-intensity regime of loading
    A. V. Dobromyslov
    N. I. Taluts
    E. A. Kozlov
    A. V. Petrovtsev
    A. T. Sapozhnikov
    D. T. Yusupov
    The Physics of Metals and Metallography, 2015, 116 : 97 - 108
  • [49] Deformation of AD995 alumina under repeated plane shock wave loading
    Dandekar, DP
    IMPACT ENGINEERING AND APPLICATION, VOLS I AND II, 2001, : 785 - 790
  • [50] Numerical modeling of sulfur-aluminum interaction under shock-wave loading
    Zelepugin, SA
    Nikulichev, VB
    COMBUSTION EXPLOSION AND SHOCK WAVES, 2000, 36 (06) : 845 - 850
12345