Preparation and performances of fiberglass-reinforced plastics with epoxy resin reinforced by CNTs

The fiberglass-reinforced plastic (FRP) was prepared using epoxy resin as a matrix and carbon nanotubes (CNTs) as the reinforcement which were treated by the direct drying method from the silane coupling agent. The effects of the amount of the addition CNTs on mechanical and electrical properties of the FRP composite materials with epoxy resin were explored. The results showed that the silane coupling agent effectively promoted the dispersion of CNTs in the FRP with epoxy resin, and improved the interface binding. CNTs effectively enhanced the mechanical and electrical properties of the FRP with epoxy resin. When the mass fraction of CNT addition was less than 0.05%, with the increase of the mass fraction of CNTs, the strength, toughness and conductivity of the prepared FRP with epoxy resin all increased, while the surface resistance reduced.