We propose a peridynamic formulation for a unidirectional fiber-reinforced composite lamina based on homogenization and mapping between elastic and fracture parameters of the micro-scale peridynamic bonds and the macro-scale pa-rameters of the composite. The model is then used to analyze the splitting mode (mode II) fracture in dynamic loading of a 0 ◦ lamina. Appropriate scaling factors are used in the model in order to have the elastic strain energy, for a fixed nonlocal interaction distance (the peridynamic horizon), match the classical one. No special criteria for splitting fail-ure are required to capture this fracture mode in the lamina. Convergence studies under uniform grid refinement for a fixed horizon size (m-convergence) and und...
Since the last century a lot of effort has been spent trying to analyze damage and crack evolution i...
Extensive efforts have been devoted to understanding brittle failure using numerical simulation, ...
A new material model for the dynamic fracture analysis of anisotropic materials has been proposed wi...
We propose a peridynamic formulation for a unidirectional fiber-reinforced composite lamina based on...
Damage and failure in composite materials under dynamic loading has been extensively studied in expe...
We proposed a bond-based peridynamic lattice model for simulating dynamic brittle fracture of 2D com...
We propose a computational method for a homogenized peridynamics description of fiber-reinforced com...
Peridynamics is a reformulation of classical continuum mechanics that utilizes integral equations in...
This study focuses on developing novel modeling techniques for fiber-reinforced composites with poly...
A recently introduced nonlocal peridynamic theory removes the obstacles present in classical continu...
The matrix component of composite structures is generally brittle. In any damage occurrence, fractur...
Peridynamics is a continuum reformulation of the classical partial differential equations of motion....
The dynamic interaction between propagating cracks and stress waves is a complex and challenging pro...
AbstractPeridynamics (Silling (2000)) is a non-local continuum theory that is particularly suited to...
A recently introduced nonlocal peridynamic theory removes the obstacles present in classical continu...
Since the last century a lot of effort has been spent trying to analyze damage and crack evolution i...
Extensive efforts have been devoted to understanding brittle failure using numerical simulation, ...
A new material model for the dynamic fracture analysis of anisotropic materials has been proposed wi...
We propose a peridynamic formulation for a unidirectional fiber-reinforced composite lamina based on...
Damage and failure in composite materials under dynamic loading has been extensively studied in expe...
We proposed a bond-based peridynamic lattice model for simulating dynamic brittle fracture of 2D com...
We propose a computational method for a homogenized peridynamics description of fiber-reinforced com...
Peridynamics is a reformulation of classical continuum mechanics that utilizes integral equations in...
This study focuses on developing novel modeling techniques for fiber-reinforced composites with poly...
A recently introduced nonlocal peridynamic theory removes the obstacles present in classical continu...
The matrix component of composite structures is generally brittle. In any damage occurrence, fractur...
Peridynamics is a continuum reformulation of the classical partial differential equations of motion....
The dynamic interaction between propagating cracks and stress waves is a complex and challenging pro...
AbstractPeridynamics (Silling (2000)) is a non-local continuum theory that is particularly suited to...
A recently introduced nonlocal peridynamic theory removes the obstacles present in classical continu...
Since the last century a lot of effort has been spent trying to analyze damage and crack evolution i...
Extensive efforts have been devoted to understanding brittle failure using numerical simulation, ...
A new material model for the dynamic fracture analysis of anisotropic materials has been proposed wi...