The use of zinc dimethacrylate functionalized graphene as a reinforcement in rubber composites

Abstract

Zinc dimethacrylate functionalized graphene (Z-GE), as reinforcing nanofiller for natural rubber (NR), was synthesized by liquid-phase exfoliation and in situ method. The morphology and structure of Z-GE were characterized to confirm the exfoliation and functionalization of GE. The NR/Z-GE composites were prepared and investigated by mechanical analysis, crosslinked network analysis and the analysis of thermal conductivity. The results showed that the tensile strength, tear strength and modulus at 300% strain of NR/Z-GE-20 composites (contents 1.400 phr GE) were increased by 142%, 76% and 231% as compared with the pure NR, respectively. And the thermal conductivity of NR/Z-GE-30 composites is enhanced by 39% as that of the pure NR. This significant improvement is attributed to the formation of covalent crosslinked network and ionic crosslinked network and efficient interfacial interaction between GE and NR matrix. This method provides a new insight into the fabrication of multifunctional GE composites and enlarges its potential applications in high performance GE-based rubber composites.