Journal
INTERNATIONAL JOURNAL OF ROCK MECHANICS AND MINING SCIENCES
Volume 79, Issue -, Pages 41-54Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijrmms.2015.08.003
Keywords
Crack coalescence pattern; Microcrack statistics method; Stress distribution; Bridge length; Bridge angle
Funding
- Hong Kong Polytechnic University RHCW [A-PA42, A-D49, G-YG58]
- National Natural Science Foundation of China [11272178]
- National Basic Research Programme of China (973 Programme) [2011CB013503]
- State Key Laboratory of Hydroscience and Engineering Foundation of Tsinghua University [2015-KY-01/03]
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This study investigated the change of stress with crack development, using the numerical code RFPA(3D), so as to understand the crack coalescence mechanisms occurring within a heterogeneous solid containing multiple holes loaded in a state of uniaxial compression. A full discussion is presented on a statistical analysis of observed microcracks data, and on the appropriate parameter selection based on those microcrack statistics. The simulated peak stress results and coalescence patterns using the selected parameters were found to closely resemble previous experimental observations. A full investigation and discussion of the stress distributions around holes during the crack growth and coalescence processes is presented for heterogeneous sample cases. Under applied loading, crack initiation, growth direction and coalescence pattern are strongly influenced by the shape of the interaction tensile zone formed between holes. Acoustic emission (AE) analysis in relation to the numerical simulations indicates that no case of pure tensile crack coalescence occurs between holes. Three modes of coalescence are classified: T-s mode (tensile mode coalescence with shear), M-T mode (mixed mode coalescence with tensile mode dominant) and M mode (mixed mode coalescence). The crack coalescence mechanisms and patterns were further investigated by changing the parameters of normalized bridge length (d/r), bridge angle beta and number of holes. A precise crack coalescence criterion is proposed. (C) 2015 Elsevier Ltd. All rights reserved.
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