Large deformation kinematics and internal forces arising from defects in crystalline solids are addressed by a nonlinear kinematic description and multiscale averaging concepts. An element of crystalline material with spatially uniform properties and containing defects such as dislocation lines and loops is considered. The average deformation gradient for this element is decomposed multiplicatively into terms accounting for effects of dislocation flux, recoverable elastic stretch and rotation, and residual elastic deformation associated with self-equilibrating internal forces induced by defects. Two methods are considered for quantifying average residual elastic deformation: continuum elasticity and discrete lattice statics. Average residual elastic strains and corresponding average residual elastic volume changes are negligible in the context of linear elasticity or harmonic force potentials but are not necessarily inconsequential in the more general case of nonlinear elasticity or anharmonic interactions.

Issue Section:
Predictive Science and Technology in Mechanics and Materials
Keywords:
disclinations, dislocation loops, elastic constants, elastic deformation, elasticity, nonlinear elasticity, plasticity, lattice statics, dislocations, multiscale modeling
Topics:
Crystals, Deformation, Dislocations, Elasticity, Statics, Stress
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