A hybridized continuum-discontinuum modeling for investigating the fracture and energy evolution characteristics of rock mass under sequential explosive detonation using a bilinear cohesive fracture model
Author:
Publisher
Elsevier BV
Subject
Computer Science Applications,Geotechnical Engineering and Engineering Geology
Reference42 articles.
1. A thermo-hydromechanical displacement discontinuity method to model fractures in high-pressure, high-temperature environments;Abdollahipour;Renew. Energ.,2020
2. Time-dependent crack propagation in a poroelastic medium using a fully coupled hydromechanical displacement discontinuity method;Abdollahipour;Int. F. Fract.,2016
3. FEM-BEM coupling analysis of vertically loaded rock-socketed pile in multilayered transversely isotropic saturated media;Ai;Comput. Geotech.,2020
4. Numerical simulation of fatigue crack propagation in heterogeneous geomaterials under varied loads using displacement discontinuity method;Alizadeh;J. Rock Mesh. Geotech. Eng.,2023
5. Stress-wave induced fracture in rock due to explosive action;Banadaki,2011
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