Improved mechanical properties of carbon fiber/graphene oxide-epoxy hybrid composites.

The mechanical properties of carbon fiber reinforced polymer composites depend upon fiber-matrix interfacial properties. In this investigation to improve the mechanical properties of polymer composites, graphene oxide was used as one of the filler for the development of carbon fiber/graphene oxide-epoxy hybrid composites. Initially, epoxy resin was modified by incorporating different weight per cent of graphene oxide from 0.1 to 0.6 wt per cent. The desired size of carbon fiber fabric was impregnated with modified epoxy resin to develop hybrid composites by compression molding technique. The graphene oxide synthesized was characterized by various techniques such as FTIR, XPS, NMR, XRD and Raman Spectroscopy. It is observed that graphene oxide synthesized possesses different type of functional groups which are responsible for making interactions with epoxy resin and Carbon fibers. The hybrid composite flexural strength increases by 66 per cent, flexural modulus by 72 per cent, while interlaminar shear strength (ILSS)increases by 25 per cent at 0.3 wt per cent of graphene oxide included in the carbon fiber reinforced polymer hybrid composites. The enhancement in the properties of composites at the percolation threshold of graphene oxide is due to hydrogen type bonding and mechanical interlocking of graphene oxide with carbon fibers and epoxy resin. The graphene oxide utilization is one of the approaches for improving the properties of carbon fiber polymer composites.