Litcius/Paper detail

On the role of the microstructure in the deformation of porous solids

Sansit Patnaik, Mehdi Jokar, Wei Ding, Fabio Semperlotti

2022npj Computational Materials30 citationsDOIOpen Access PDF

Abstract

Abstract This study explores the role that the microstructure plays in determining the macroscopic static response of porous elastic continua and exposes the occurrence of position-dependent nonlocal effects that are strictly correlated to the configuration of the microstructure. Then, a nonlocal continuum theory based on variable-order fractional calculus is developed in order to accurately capture the complex spatially distributed nonlocal response. The remarkable potential of the fractional approach is illustrated by simulating the nonlinear thermoelastic response of porous beams. The performance, evaluated both in terms of accuracy and computational efficiency, is directly contrasted with high-fidelity finite element models that fully resolve the pores’ geometry. Results indicate that the reduced-order representation of the porous microstructure, captured by the synthetic variable-order parameter, offers a robust and accurate representation of the multiscale material architecture that largely outperforms classical approaches based on the concept of average porosity.

Topics & Concepts

MicrostructureMaterials sciencePorosityDeformation (meteorology)Composite materialComposite Material MechanicsNonlocal and gradient elasticity in micro/nano structuresElasticity and Material Modeling