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Volume 11 Issue 1
Feb.  2004
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Xuebin Wang, Xiaobin Yang, Zhihui Zhang, and Yishan Pan, Dynamic analysis of fault rockburst based on gradient-dependent plasticity and energy criterion, J. Univ. Sci. Technol. Beijing , 11(2004), No. 1, pp.5-9.
Cite this article as: Xuebin Wang, Xiaobin Yang, Zhihui Zhang, and Yishan Pan, Dynamic analysis of fault rockburst based on gradient-dependent plasticity and energy criterion, J. Univ. Sci. Technol. Beijing , 11(2004), No. 1, pp.5-9.
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Dynamic analysis of fault rockburst based on gradient-dependent plasticity and energy criterion

Author Affilications

  • Department of Mechanics and Engineering Sciences, Liaoning Technical University, Fuxin 123000, China

  • Department of Engineering Mechanics, Tsinghua University, Beijing 100084, China

Funds: 

This work was financially supported by the National Natural Science Foundation of China (No.50309004) and Liaoning Technical University (No. 02-38).

  • Received: 23 March 2003; Available Online: 17 June 2021
    Graphical Abstract
    • Abstract
  • Fault rockburst is treated as a strain localization problem under dynamic loading condition considering strain gradient and strain rate. As a kind of dynamic fracture phenomena, rockburst has characteristics of strain localization, which is considered as a one-dimensional shear problem subjected to normal compressive stress and tangential shear stress. The constitutive relation of rock material is bilinear (elastic and strain softening) and sensitive to shear strain rate. The solutions proposed based on gradientdependent plasticity show that intense plastic strain is concentrated in fault band and the thickness of the band depends on the characteristic length of rock material. The post-peak stiffness of the fault band was determined according to the constitutive parameters of rock material and shear strain rate. Fault band undergoing strain softening and elastic rock mass outside the band constitute a system and the instability criterion of the system was proposed based on energy theory. The criterion depends on the constitutive relation of rock material, the structural size and the strain rate. The static result regardless of the strain rate is the special case of the present analytical solution. High strain rate can lead to instability of the system.
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