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Peridynamic theory of solid mechanics.

Journal Article · · Proposed for publication in Advances in Applied Mechanics.
OSTI ID:984146
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The peridynamic theory of mechanics attempts to unite the mathematical modeling of continuous media, cracks, and particles within a single framework. It does this by replacing the partial differential equations of the classical theory of solid mechanics with integral or integro-differential equations. These equations are based on a model of internal forces within a body in which material points interact with each other directly over finite distances. The classical theory of solid mechanics is based on the assumption of a continuous distribution of mass within a body. It further assumes that all internal forces are contact forces that act across zero distance. The mathematical description of a solid that follows from these assumptions relies on partial differential equations that additionally assume sufficient smoothness of the deformation for the PDEs to make sense in either their strong or weak forms. The classical theory has been demonstrated to provide a good approximation to the response of real materials down to small length scales, particularly in single crystals, provided these assumptions are met. Nevertheless, technology increasingly involves the design and fabrication of devices at smaller and smaller length scales, even interatomic dimensions. Therefore, it is worthwhile to investigate whether the classical theory can be extended to permit relaxed assumptions of continuity, to include the modeling of discrete particles such as atoms, and to allow the explicit modeling of nonlocal forces that are known to strongly influence the behavior of real materials.

Research Organization:
Sandia National Laboratories
Sponsoring Organization:
USDOE
DOE Contract Number:
AC04-94AL85000
OSTI ID:
984146
Report Number(s):
SAND2010-1233J
Journal Information:
Proposed for publication in Advances in Applied Mechanics., Journal Name: Proposed for publication in Advances in Applied Mechanics.
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
APPROXIMATIONS
ATOMS
DEFORMATION
DESIGN
DIMENSIONS
DISTRIBUTION
FABRICATION
INTEGRO-DIFFERENTIAL EQUATIONS
MONOCRYSTALS
PARTIAL DIFFERENTIAL EQUATIONS
ROUGHNESS
SIMULATION