Mechanical property of polymer composites reinforced with nanomaterials

Abstract

Polymer composite samples were prepared consisting of NC-826 epoxy and approximately 0.1–0.5 wt% aerographite nanomaterial. The compression properties of the various samples were evaluated at strain rates of 10−3–10−1 s−1 using a universal testing machine. The fracture surfaces of the tested samples were examined by scanning electron microscope. Additional composite samples consisting of NC-826 epoxy and 0.3 wt% multiwalled carbon nanotubes (MWCNTs) were prepared and tested under the same compression strain rates of approximately 10−1–10−3 s−1. In general, the results showed that the addition of aerographite nanomaterials to the resin matrix is beneficial in suppressing crack propagation under compression loads and therefore leads to an improved stress, toughness, and fracture strain compared to the pure resin sample. The results additionally showed that the use of MWCNTs as a reinforcement material yields a further small improvement in the mechanical properties of the sample.