Morphological aspects of crack growth in rock materials with various flaws

Summary Crack evolution is initiated by the occurrence of tensile wing cracks and is then further promoted due to the crack coalescence caused by the extension of a central tensile crack segment between two relatively adjacent flaws. To understand such progressive failures in rock, a parallelized pe...

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Bibliographic Details
Published inInternational journal for numerical and analytical methods in geomechanics Vol. 43; no. 10; pp. 1854 - 1866
Main Authors Lee, Jooeun, Hong, Jung‐Wuk
Format Journal Article
LanguageEnglish
Published Bognor Regis Wiley Subscription Services, Inc 01.07.2019
Subjects
Animal morphology
Coalescence
Coalescing
crack coalescence
crack growth
Crack initiation
crack interaction
Crack propagation
Cracks
Finite element method
Fracture mechanics
fracture morphology
Inclination angle
Morphology
Physical tests
progressive failure
Rocks
Wings
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Summary:Summary Crack evolution is initiated by the occurrence of tensile wing cracks and is then further promoted due to the crack coalescence caused by the extension of a central tensile crack segment between two relatively adjacent flaws. To understand such progressive failures in rock, a parallelized peridynamics coupled with a finite element method is utilized. Through this method, the initiation position of tensile wing cracks is observed with respect to varying inclination angles of a flaw, and then its corresponding shifting mechanism is investigated. In addition, the phenomenon of the position shifting being sensitive to various flaw shapes is discussed. Moreover, it is observed that the inclination angle of a central flaw affects the initiation position of other flaws; therefore, the initiation positions of tensile wing crack emanating from other neighboring flaws are analyzed with their angles. Following tensile wing cracks, a central tensile crack segment occurs in the bridging region between a central flaw and other neighboring flaws; the developmental patterns caused by the crack segment are discussed as well. Finally, the role a central tensile crack segment plays in the formation of crack coalescence and specimen failure is investigated in detail. The numerical results in this paper demonstrate good fidelity with established physical test results and complement them, thereby expanding the understanding of fracturing morphology in rock specimens with various flaws.
ISSN:0363-9061
1096-9853
DOI:10.1002/nag.2938