Abstract

Computational Grains for Nanocomposites with Interface Stress Effects

Highlights

  • Computational Grains for Nanocomposites with Interface Stress Effects

  • In this study, two/three-dimensional computational grains are developed for micromechanical modeling of heterogeneous materials with nanoscale inhomogeneities, considering the interface stress effect

  • An inter-element compatible displacement field is assumed along the element outer-boundary, and interior displacement fields in the matrix as well as in the inclusion are independently assumed as T-Trefftz trial functions

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Summary

Introduction

Computational Grains for Nanocomposites with Interface Stress Effects Abstract: In this study, two/three-dimensional computational grains are developed for micromechanical modeling of heterogeneous materials with nanoscale inhomogeneities, considering the interface stress effect.

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