Plastic flow and localization in an amorphous material: experimental interpretation of the fluidity

TL;DR

This study investigates how granular materials deform plastically under load, revealing the evolution of plastic fields and identifying a fluidity component that concentrates along a specific direction, aiding understanding of amorphous material rheology.

Contribution

It experimentally links the plastic response of granular materials to the fluidity concept, showing the decoupled evolution of different plastic field components.

Findings

Plastic field evolves from homogeneous to heterogeneous

Plastic field decomposes into two components with different strain scales

Fluidity concentrates along the Mohr-Coulomb angle

Abstract

We present a thorough study of the plastic response of a granular material progressively loaded. We study experimentally the evolution of the plastic field from a homogeneous one to an heterogeneous one and its fluctuations in term of incremental strain. We show that the plastic field can be decomposed in two components evolving on two decoupled strain increment scales. We argue that the slowly varying part of the field can be identified to the so-called fluidity field introduced recently to interpret the rheological behaviour of amorphous materials. This fluidity field progressively concentrates along a macroscopic direction corresponding to the Mohr-Coulomb angle.