Combined finite-discrete element method has become one of the most powerful numericalmethods for modelling rock failure process in recent decades. However, most of studies focus on two-dimensional combined finite-discrete element modelling of the rock failure process. This paper further develops a hybrid finite-discrete element method proposed early by the authors for three-dimensional modelling of the rock failure processes in Brazilian tests and uniaxial compression test. The further developed three-dimensional hybrid finite-discrete element method is then parallelized using compute unified device architecture – based general purpose graphic processing unit parallel method to conduct a full-scale three-dimensional modelling of rock spalli...
The combined finite-discrete element method (FDEM) has attracted significant attention for numerical...
The hybrid finite‐discrete element method (FDEM) is widely used for engineering applications, which,...
A cohesive fracture model that combines tension, compression and shear material behaviour is impleme...
Combined finite-discrete element method has become one of the most powerful numericalmethods for mod...
A hybrid finite–discrete element method is proposed to model the rock fracture behaviour under vario...
A three-dimensional (3D) fracture algorithm is implemented into a hybrid finite-discreteelement meth...
A hybrid finite-discrete element method is proposed to model the rock fracture under various loading...
As a state-of-the-art computational method for simulating rock fracturing and fragmentation, the com...
The numerical techniques for modelling the rock fracture have been briefly reviewed. A hybrid finite...
A hybrid finite-discrete element method (FDEM) is proposed to model rock fracture initiation and pro...
In the field of geotechnical engineering, the number of applications of combined/hybrid finite-discr...
The combined finite-discrete element method (FDEM) has attracted significant attention for numerical...
The hybrid finite‐discrete element method (FDEM) is widely used for engineering applications, which,...
A cohesive fracture model that combines tension, compression and shear material behaviour is impleme...
Combined finite-discrete element method has become one of the most powerful numericalmethods for mod...
A hybrid finite–discrete element method is proposed to model the rock fracture behaviour under vario...
A three-dimensional (3D) fracture algorithm is implemented into a hybrid finite-discreteelement meth...
A hybrid finite-discrete element method is proposed to model the rock fracture under various loading...
As a state-of-the-art computational method for simulating rock fracturing and fragmentation, the com...
The numerical techniques for modelling the rock fracture have been briefly reviewed. A hybrid finite...
A hybrid finite-discrete element method (FDEM) is proposed to model rock fracture initiation and pro...
In the field of geotechnical engineering, the number of applications of combined/hybrid finite-discr...
The combined finite-discrete element method (FDEM) has attracted significant attention for numerical...
The hybrid finite‐discrete element method (FDEM) is widely used for engineering applications, which,...
A cohesive fracture model that combines tension, compression and shear material behaviour is impleme...