期刊
JOURNAL OF ROCK MECHANICS AND GEOTECHNICAL ENGINEERING
卷 13, 期 4, 页码 820-832出版社
SCIENCE PRESS
DOI: 10.1016/j.jrmge.2021.03.013
关键词
Porous materials; Unified strength criterion; Homogenization; Gurson criterion
资金
- National Natural Science Foundation of China [51804203]
This paper presents an explicit formulation of the macroscopic strength criterion for porous media with spherical voids, providing an exact upper bound and a parametric estimate of the macroscopic strength profile under different loading conditions. The developed strength criteria are evaluated using finite-element numerical solutions, with a convenient heuristic strength criterion proposed for practical applications. Furthermore, the study addresses the impact of the ratio of matrix's eBCS to UCS on the macroscopic strength of porous media, highlighting the importance of considering distinct values of eBCS and UCS to avoid underestimation in high-pressure scenarios.
This paper aims to propose an explicit formulation of the macroscopic strength criterion for porous media with spherical voids. The matrix is assumed rigid and perfectly plastic with yield surface described by the three-parameter strength criterion, which is Lode angle and pressure dependent and capable of accounting for distinct values of the uniaxial tensile strength, uniaxial compressive strength (UCS) and equal biaxial compressive strength (eBCS). An exact upper bound of the macroscopic strength is derived for porous media subjected to purely hydrostatic loading. Besides, an estimate of the macroscopic strength profile of porous media under axisymmetric loading is obtained in parametric form. Moreover, a heuristic strength criterion in explicit form is further developed by examining limit cases of the parametric strength criterion. The developed strength criteria are assessed by finite-element based numerical solutions. Compared with the parametric strength criterion which involves cumbersome functions, the heuristic one is convenient for practical applications. For specific values of the matrix's strength surface, the proposed heuristic strength criterion can recover the well-known Gurson criterion. The present work also addresses the effect of the ratio of matrix's eBCS to UCS on the macroscopic strength of porous media. For matrix with distinct values of eBCS and UCS, neglecting the difference between eBCS and UCS would result in an underestimation of the macroscopic strength, especially when the pressure is large. (C) 2021 Institute of Rock and Soil Mechanics, Chinese Academy of Sciences. Production and hosting by Elsevier B.V.
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