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The plastic deformation of non-homogeneous polycrystals
Authors:E.A. Bonifaz  N.L. Richards
Affiliation:1. Department of Mechanical and Manufacturing Engineering, University of Manitoba, Winnipeg, MB, Canada R3T 5V6;2. Universidad San Francisco de Quito, Casilla Postal: 17-12-841, Circulo de Cumbayá, Quito-Ecuador
Abstract:To describe the work hardening process of polycrystals processed using various thermomechanical cycles with isochronal annealing from 500 to 900 °C, a dislocation based strain hardening model constructed in the basis of the so-called Kocks–Mecking model is proposed. The time and temperature dependence of flow stress is accounted via grain boundary migration, and the migration is related to annihilation of extrinsic grain boundary dislocations (EGBD’s) by climb via lattice diffusion of vacancies at the triple points. Recovery of yield stress is associated with changes in the total dislocation density term ρT. A sequence of deformation and annealing steps generally result in reduction of flow stress via the annihilation of the total dislocation density ρT defined as the sum of geometrically necessary dislocations ρG and statistically stored dislocations ρS. The predicted variation of yield stress with annealing temperature and cold working stages is in agreement with experimental observations. An attempt is made to determine the mathematical expressions which best describe the deformation behaviour of polycrystals in uniaxial deformation.
Keywords:A. Dislocations   A. Thermomechanical processes   B. Polycrystalline material   B. Constitutive behaviour   B. Work hardening
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