Active slip-band separation and the energetics of slip in single crystals

This research supports recent efforts to provide an energetic approach to t he prediction of stress-strain relations for single crystals undergoing sin gle slip and to give precise formulations of experimentally observed connec tions between hardening of single crystals and separation of active slip-ba nds. Non-classical, structured deformations in the form of two-level shears permit the formulation of new measures of the active slip-band separation and of the number of lattice cells traversed during slip. A formula is obta ined for the Helmholtz free energy per unit volume as a function of the she ar without slip, the shear due to slip, and the relative separation of acti ve slip-bands in a single crystal. This formula is the basis for a model, u nder preparation by the authors, of hardening of single crystals in single slip that is consistent with the Portevin-Le Chatelier effect and the exist ence of a critical resolved shear stress. (C) 2000 Elsevier Science Ltd. Al l rights reserved.