Polygonal grain‐based distinct element modeling for mechanical behavior of brittle rock |
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Authors: | J.‐W. Park C. Park J.‐W. Song E.‐S. Park J.‐J. Song |
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Affiliation: | 1. Climate Change Mitigation and Sustainability Division, Korea Institute of Geoscience and Mineral Resources (KIGAM), Yuseong‐gu, Daejeon, Korea;2. Department of Energy Resources Engineering, Seoul National University, Gwanak‐gu, Seoul, Korea |
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Abstract: | The microstructure of rock was numerically reproduced by a polygonal grain‐based model, and its mechanical behavior was examined by performing the uniaxial compression test and Brazilian tests via the Universal Distinct Element Code. The numerical results of the model demonstrated good agreement with the experimental results obtained with rock specimens in terms of the stress–strain behavior, strength characteristics, and brittle fracture phenomenon. An encouraging result is that the grain‐based model‐Universal Distinct Element Code model can reproduce a low ratio of tensile to compressive strength of 1/20 to 1/10 without the need for an additional process. This finding is ascribed to the fact that the geometrical features of polygons can effectively capture the effects of angularity, finite rotation, and interlocking of grains that exist in reality. A numerical methodology to monitor the evolution of micro‐cracks was developed, which enabled us to examine the progressive process of the failure and distinguish the contribution of tensile cracking to the process from that of shear cracking. From the observations of the micro‐cracking process in reference to the stress–strain relation, crack initiation stress, and crack damage stress, it can be concluded that the failure process of the model closely resembles the microscopic observations of rock. We also carried out a parametric study to examine the relationships between the microscopic properties and the macroscopic behavior of the model. Depending on the micro‐properties, the model exhibited a variety of responses to the external load in terms of the strength and deformation characteristics, the evolution of micro‐cracks, and the post‐peak behavior. Copyright © 2016 John Wiley & Sons, Ltd. |
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Keywords: | polygonal grain grain‐based model distinct element model UDEC brittle rock |
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