Probing the prediction of effective properties for composite materials

This article presents different micromechanical modelling techniques based on analytical and numerical approaches to determine the effective elastic piezoelectric (piezoelastic) properties of graphene-based composite materials. Different types, orientations shapes as well geometrical parameters fiber reinforcement are considered for estimating properties. The predicted with without considering strong covalent bond which provides interaction in-plane stability 2Dcrystalline graphene or van der Wall forces formed between layers matrix. It is revealed that axial, transverse shear piezoelastic reinforced (GRPC) significantly enriched due incorporation into epoxy importance incorporating nanofillers/interphase conventional matrix form an advanced its illustrated while these results show excellent agreement previously reported experimental estimates. These reveal nanofillers, there a significant enhancement in composite. would also help recognize most important material respect orientation reinforcements influences performance system significantly. To confirm safety, robustness sustainability structure, it prior requirement composites static structural analyses.