Studying the influence of inclusion characteristics on the characteristic length involved in quasi-brittle materials using the lattice element method

TL;DR

This paper investigates how mesostructure and ligament size influence the characteristic length in quasi-brittle materials using lattice element modeling, providing insights for nonlocal damage model parameterization.

Contribution

It demonstrates that mesostructure characteristics inherently govern the internal length in lattice models, eliminating the need for explicit internal length parameters.

Findings

Mesostructure influences fracture process zone width

Ligament size affects characteristic length

Guidelines for extracting internal length from mesostructure

Abstract

Unlike nonlocal models, there is no need to introduce an internal length in the constitutive law for lattice model at the mesoscopic scale. Actually, the internal length is not explicitly introduced but rather governed by the mesostructure characteristics themselves. The influence of the mesostructure on the width of the fracture process zone which is assumed to be correlated to the characteristic length of the homogenized quasi-brittle material is studied. The influence of the ligament size (a structural parameter) is also investigated. This analysis provides recommendations/warnings when extracting an internal length required for nonlocal damage models from the material mesostructure