The peridynamic model of solid mechanics is a nonlocal theory containing a length scale. It is based on direct interactions between points in a continuum separated from each other by a finite distance. The maximum interaction distance provides a length scale for the material model. This paper addresses the question of whether the peridynamic model for an elastic material reproduces the classical local model as this length scale goes to zero. We show that if the motion, constitutive model, and any nonhomogeneities are sufficiently smooth, then the peridynamic stress tensor converges in this limit to a Piola-Kirchhoff stress tensor that is a function only of the local deformation gradient tensor, as in the classical theory. This limiting Piol...
The convergence of a peridynamic model for solid mechanics inside heterogeneous media in the limit o...
We consider load controlled quasistatic evolution. Well posedness results for the nonlocal continuum...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 2...
The peridynamic model of solid mechanics is a nonlocal theory containing a length scale. It is based...
Abstract The peridynamic model of solid mechanics is a nonlocal theory containing a length scale. It...
A state-based peridynamic material model describes internal forces acting on a point in terms of the...
The deformation of an infinite bar subjected to a self-equilibrated load distribution is investigate...
A generalization of the original peridynamic framework for solid mechanics is proposed. This general...
The peridynamic theory is a generalization of classical continuum mechanics and takes into account t...
The nonlocal peridynamic theory has been proven extremely robust for predicting damage initiation an...
Peridynamics is widely used as the theoretical basis for numerical studies of fracture evolution, pr...
Porous media theories play an important role in many branches of engineering. Despite significant ad...
Peridynamics is a recently developed extension of continuum mechanics, which replaces the traditiona...
A state-based peridynamic material model describes internal forces acting on a point in terms of the...
Peridynamics is a continuum reformulation of the classical partial differential equations of motion....
The convergence of a peridynamic model for solid mechanics inside heterogeneous media in the limit o...
We consider load controlled quasistatic evolution. Well posedness results for the nonlocal continuum...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 2...
The peridynamic model of solid mechanics is a nonlocal theory containing a length scale. It is based...
Abstract The peridynamic model of solid mechanics is a nonlocal theory containing a length scale. It...
A state-based peridynamic material model describes internal forces acting on a point in terms of the...
The deformation of an infinite bar subjected to a self-equilibrated load distribution is investigate...
A generalization of the original peridynamic framework for solid mechanics is proposed. This general...
The peridynamic theory is a generalization of classical continuum mechanics and takes into account t...
The nonlocal peridynamic theory has been proven extremely robust for predicting damage initiation an...
Peridynamics is widely used as the theoretical basis for numerical studies of fracture evolution, pr...
Porous media theories play an important role in many branches of engineering. Despite significant ad...
Peridynamics is a recently developed extension of continuum mechanics, which replaces the traditiona...
A state-based peridynamic material model describes internal forces acting on a point in terms of the...
Peridynamics is a continuum reformulation of the classical partial differential equations of motion....
The convergence of a peridynamic model for solid mechanics inside heterogeneous media in the limit o...
We consider load controlled quasistatic evolution. Well posedness results for the nonlocal continuum...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 2...