Reconstruction of the autowave structure upon deformation of polycrystalline aluminum

Abstract

The evolution of zones of localized plastic deformation in polycrystalline aluminum was investigated. At the stage of the linear strain hardening, such zones were established to move synchronously, whereas at the stage of parabolic strengthening they are stationary. The quantitative characteristics (wavelength, propagation velocity) of deformation waves that are formed at the stage of linear strengthening were determined. A relation between the quantitative characteristics of the process of deformation localization and the grain size was found. The distribution of local deformations upon transition from one stage of plastic flow to another was investigated. A model that explains the generation of coarse-scale structures of localized plastic deformation is suggested.