Disorder is good for you: The influence of local disorder on strain localization and ductility of strain softening materials

TL;DR

This paper explores how local microstructural disorder affects strain localization and ductility in strain softening materials, showing that increased heterogeneity delays localization and enhances ductility.

Contribution

It introduces a generic model linking microstructural disorder to strain localization behavior and compares the resulting patterns to existing shear band formation models.

Findings

Increased heterogeneity delays strain localization.

Greater disorder extends the plastic deformation regime.

Strain localization patterns are characterized and compared to literature models.

Abstract

We formulate a generic concept model for the deformation of a locally disordered, macroscopically homogeneous material which undergoes irreversible strain softening during plastic deformation. We investigate the influence of the degree of microstructural heterogeneity and disorder on the concomitant strain localization process (formation of a macroscopic shear band). It is shown that increased microstructural heterogeneity delays strain localization and leads to an increase of the plastic regime in the macroscopic stress-strain curves. The evolving strain localization patterns are characterized and compared to models of shear band formation published in the literature.