AbstractThis paper presents a numerical method, known as hybrid lattice particle modeling (HLPM), for the study of mode-I crack formation and propagation in two-dimensional geometry subject to a fixed-grip condition. The HLPM combines the strength of two numerical techniques, particle model (PM) and lattice model (LM), for the purpose of solving dynamic fragmentation of solids within a various Poisson’s ratio range. A Lennard-Jones-type potential is employed to describe the nonlinear dynamic interaction of each macroscopic-size particle with its nearest-neighbors. Crack initiation and propagation is investigated for materials with different Young’s modulus, tensile strength and varying ductility. It is demonstrated that crack patterns and p...
International audienceEvaluating the critical load levels for intrinsic ductility and brittle propag...
This paper is concerned with the mathematical derivations of employing elastic interaction formula b...
Dynamic fracture behavior in both fairly continuous materials and discontinuous cellular materials i...
AbstractThis paper presents a numerical method, known as hybrid lattice particle modeling (HLPM), fo...
Hybrid Lattice Particle modelling (HLPM) is an innovative particular dynamics approach that is estab...
Extensive researches have been done to simulate crack initialization, propagation, branching, and co...
International audienceThe construction of a homogeneous medium equivalent to a heterogeneous one und...
The capability of representing fracture processes in non-homogeneous media is of great interest amon...
Identifying the failure of materials and structures is still a challenging task and there is no uniq...
A full rate-dependent cohesive law is implemented in the distinct lattice spring method (DLSM) to in...
A full rate-dependent cohesive law is implemented in the distinct lattice spring method (DLSM) to in...
The material structure at the microscale reveals the particulate nature of solids. By exploiting the...
International audienceFracture of heterogeneous materials has emerged as a critical issue in many en...
The fracture behavior of polymeric materials has been widely studied in recent years, both experimen...
The simulation of critical and subcritical crack propagation in heterogeneous materials is not a sim...
International audienceEvaluating the critical load levels for intrinsic ductility and brittle propag...
This paper is concerned with the mathematical derivations of employing elastic interaction formula b...
Dynamic fracture behavior in both fairly continuous materials and discontinuous cellular materials i...
AbstractThis paper presents a numerical method, known as hybrid lattice particle modeling (HLPM), fo...
Hybrid Lattice Particle modelling (HLPM) is an innovative particular dynamics approach that is estab...
Extensive researches have been done to simulate crack initialization, propagation, branching, and co...
International audienceThe construction of a homogeneous medium equivalent to a heterogeneous one und...
The capability of representing fracture processes in non-homogeneous media is of great interest amon...
Identifying the failure of materials and structures is still a challenging task and there is no uniq...
A full rate-dependent cohesive law is implemented in the distinct lattice spring method (DLSM) to in...
A full rate-dependent cohesive law is implemented in the distinct lattice spring method (DLSM) to in...
The material structure at the microscale reveals the particulate nature of solids. By exploiting the...
International audienceFracture of heterogeneous materials has emerged as a critical issue in many en...
The fracture behavior of polymeric materials has been widely studied in recent years, both experimen...
The simulation of critical and subcritical crack propagation in heterogeneous materials is not a sim...
International audienceEvaluating the critical load levels for intrinsic ductility and brittle propag...
This paper is concerned with the mathematical derivations of employing elastic interaction formula b...
Dynamic fracture behavior in both fairly continuous materials and discontinuous cellular materials i...