Effects of carbon nanofibers (CNFs) on thermal and interlaminar shear responses of E-glass/polyester composites

Abstract

A high intensity ultrasonic liquid processor was used to infuse 0.1–0.4wt.% carbon nanofibers (CNFs) into the polyester matrix which was then mixed with a catalyst using a high speed mechanical agitator. Both conventional and nanophased glass fiber reinforced polyester composites (GRPCs) were fabricated using the vacuum assisted resin transfer molding (VARTM) process. Scanning electron microscope (SEM) revealed best dispersion of CNFs in the 0.2wt.% CNF-loaded resin. Proper resin flow and impregnation of the glass fibers were also seen in the SEM micrographs. DMA studies exhibited about 49.5% increase in the storage modulus and about 3°C increase in the glass transition temperature (Tg) due to the incorporation of CNFs into the GRPC. TMA studies also showed better thermal stability and lower thermal expansion in the CNF-loaded GRPC. CNF-loaded GRPC showed higher ILSS due to better interfacial bonding between the fiber and matrix due to the presence of CNFs. Fracture morphology studied by both optical microscope (OM) and SEM revealed better interfacial bonding in the CNF-loaded GRPC.