The combined finite-discrete element method (FDEM) has attracted significant attention for numerical simulations of complex fracture process of rock-like materials as one of the promising hybrid methods. The mainstream of FDEM simulators developed to date is based on the intrinsic cohesive zone model (ICZM) in which cohesive elements are inserted into all the boundaries of continuum solid elements at the onset of simulations and an artificial elastic behavior must be incorporated to model the intact deformation of rock-like materials. However, the effect of introduction of the artificial elastic behavior on the precision of intact stress wave propagation has not been discussed in previous literatures and this paper discusses this issue. As ...
A three-dimensional (3D) fracture algorithm is implemented into a hybrid finite-discreteelement meth...
Rock failure process is a complex phenomenon that involves elastic and plastic deformation, microsco...
International audienceFracture propagation process in brittle rock is investigated by means of numer...
Smeared crack approach coupled with cohesive zone model has been an attractive way for the realistic...
A hybrid finite-discrete element method (FDEM) is proposed to model rock fracture initiation and pro...
The numerical techniques for modelling the rock fracture have been briefly reviewed. A hybrid finite...
The scope of this study is to numerically simulate a series of rock mechanics and fracturemechanics ...
A cohesive fracture model that combines tension, compression and shear material behaviour is impleme...
Within the framework of combined finite-discrete element method (FDEM), we propose a novel and effic...
A hybrid finite–discrete element method is proposed to model the rock fracture behaviour under vario...
A hybrid finite-discrete element method is proposed to model the rock fracture under various loading...
Three-dimensional fracture simulation is a big challenge to computational mechanics because of the c...
A cohesive fracture model considering tension, compression and shear material behaviour is implement...
Failure processes are common in geomaterials under external loads. In this study, a cohesive fractur...
A three-dimensional (3D) fracture algorithm is implemented into a hybrid finite-discreteelement meth...
Rock failure process is a complex phenomenon that involves elastic and plastic deformation, microsco...
International audienceFracture propagation process in brittle rock is investigated by means of numer...
Smeared crack approach coupled with cohesive zone model has been an attractive way for the realistic...
A hybrid finite-discrete element method (FDEM) is proposed to model rock fracture initiation and pro...
The numerical techniques for modelling the rock fracture have been briefly reviewed. A hybrid finite...
The scope of this study is to numerically simulate a series of rock mechanics and fracturemechanics ...
A cohesive fracture model that combines tension, compression and shear material behaviour is impleme...
Within the framework of combined finite-discrete element method (FDEM), we propose a novel and effic...
A hybrid finite–discrete element method is proposed to model the rock fracture behaviour under vario...
A hybrid finite-discrete element method is proposed to model the rock fracture under various loading...
Three-dimensional fracture simulation is a big challenge to computational mechanics because of the c...
A cohesive fracture model considering tension, compression and shear material behaviour is implement...
Failure processes are common in geomaterials under external loads. In this study, a cohesive fractur...
A three-dimensional (3D) fracture algorithm is implemented into a hybrid finite-discreteelement meth...
Rock failure process is a complex phenomenon that involves elastic and plastic deformation, microsco...
International audienceFracture propagation process in brittle rock is investigated by means of numer...