A multiscale peridynamic framework for modelling mechanical properties of polymer-based nanocomposites

In this work, a peridynamics-based representative volume element approach is implemented to estimate the effective tensile modulus of nanomodified epoxy resins. The results ob-tained through this homogenization procedure are then used as input for the analysis of nanocomposite fracture toughness, which is carried out by exploiting a classical continuum mechanics-peridynamics coupling strategy. In the coupled model, the small-scale heterogeneity of the crack tip region is preserved by implementing the recently proposed intermediately -homogenized peridynamic model. Comparison to experimental data confirms the capability of the peridynamics-based approaches to properly model the effective tensile modulus and fracture toughness of polymer-based nanocomposites.

Automated summary

In this study, a peridynamics-based approach was used to estimate the effective tensile modulus of nanomodified epoxy resins, which was then applied to analyze the fracture toughness of nanocomposites. Experimental data confirmed the ability of peridynamics-based methods to accurately model the properties of polymer-based nanocomposites.