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Mode I Microscopic Cracking Process of Granite Considering the Criticality of Failure

Chengkang Mo, Junliang Zhao, Dongxiao Zhang

2023Journal of Geophysical Research Solid Earth24 citationsDOIOpen Access PDF

Abstract

Abstract Rock failure under tensile loading conditions is significant for rock engineering stability and underground energy development. However, a comprehensive understanding of the rock cracking process and the corresponding failure pattern at microscale remains unclear. Therefore, the cracking process and the damage evolution of rock and their underlying mechanisms were systematically investigated. In this study, the fracture behavior of granite was examined by performing mode I fracture tests. For extensive analysis of the cracking process, the cracks were captured in real‐time by scanning electron microscope, and the two fracture toughnesses of the double‐K model were evaluated. Subsequently, fracture morphologies of the post‐failure specimens were analyzed to further investigate the cracking mechanisms. The experimental results indicated the following: (a) the propagated direction of cracks was controlled by the fracture toughness of mineral grains and grain boundaries; and (b) the ratio of the two fracture toughnesses was correlated with fracture tortuosity. Furthermore, two damage modes of granite were found: catastrophic failure and non‐catastrophic failure modes. The former showed precursory behavior prior to catastrophic failure, while the latter did not. The underlying mechanisms of damage modes were revealed as follows: (a) the increased degree of heterogeneity caused by mineral composition complexity led to the early arrival of precursors; and (b) the occurrence of catastrophic or non‐catastrophic failure mode was determined by the difference in grain‐scale heterogeneity. Our results found at microscale also have implications for understanding the macroscopic failure process of rocks.

Topics & Concepts

Microscale chemistryCrackingCatastrophic failureFracture (geology)Materials scienceFailure mode and effects analysisFracture toughnessFracture mechanicsComposite materialGeotechnical engineeringGeologyMathematics educationMathematicsRock Mechanics and ModelingLandslides and related hazardsDrilling and Well Engineering
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