LOCALIZED DEFORMATION MODES AND NON-SCHMID EFFECTS IN CRYSTALLINE SOLIDS .1. CRITICAL CONDITIONS OF LOCALIZATION

Authors
Citation
M. Dao et Rj. Asaro, LOCALIZED DEFORMATION MODES AND NON-SCHMID EFFECTS IN CRYSTALLINE SOLIDS .1. CRITICAL CONDITIONS OF LOCALIZATION, Mechanics of materials, 23(2), 1996, pp. 71-102
Citations number
52
Categorie Soggetti
Mechanics,"Material Science
Journal title
ISSN journal
01676636
Volume
23
Issue
2
Year of publication
1996
Pages
71 - 102
Database
ISI
SICI code
0167-6636(1996)23:2<71:LDMANE>2.0.ZU;2-R
Abstract
A general strain rate independent crystallographic slip theory which i ncorporates non-Schmid effects, is presented. This constitutive law is a rate independent isothermal idealization of the theory developed by Dao and Asaro (1993). The non-Schmid factors are estimated for Ni3Al as well as for some simple metals. A general method to study the bifur cation modes for the general three-dimensional multiple slip geometry is described. Three-dimensional bifurcation analyses for single slip m ode as well as multiple slip mode are presented. With moderate non-Sch mid effects, coarse slip bands (CSB) are found possible in single slip modes as well as multiple slip modes, where critical localization cri teria may be satisfied with significant strain hardening. Non-symmetri c multiple slip geometries are examined and the bifurcation results sh ow that shear bands close to the conjugate slip system are often more favored. Non-Schmid effects, elastic anisotropy and stress state may h ave important influences on the critical localization conditions. A me chanism for the transition from coarse slip bands to macroscopic shear bands (MSB) is suggested. The predictions of the theory are compared with existing experimental observations and good agreement is obtained for both the coarse slip bands and macroscopic shear bands.