Effective dislocation lines in continuously dislocated crystals. III. Kinematics
Abstract
A class of congruences of principal Volterra-type effective dislocation lines associated with a dislocation density tensor is distinguished in order to investigate the kinematics of continuized defective crystals in terms of their dislocation densities (tensorial as well as scalar). Moreover, it shown, basing oneself on a formula defining the mean curvature of glide surfaces for principal edge effective dislocation lines, that the considered kinematics of continuized defective crystals is consistent with some relations appearing in the physical theory of plasticity (e.g. with the Orowan-type kinematic relations and with the treatment of shear stresses as driving stresses of moving dislocations).
Cite
@article{arxiv.0709.1802,
title = {Effective dislocation lines in continuously dislocated crystals. III. Kinematics},
author = {Andrzej Trzesowski},
journal= {arXiv preprint arXiv:0709.1802},
year = {2010}
}
Comments
Keywords. Anholonomity, crystal surfaces, dislocation density, dislocation speed, glide surfaces, instantaneous metric tensor, Killing vector, kinematics, material flow, Orowan kinematic relation, rate of stretchings, time-dependent Bravais moving frame