Interlaminar fracture toughness and CAI strength of fibre-reinforced composites with nanoparticles - A review

Some recent developments are reviewed in the use of nanoparticles as additional reinforcing phases in fibre-reinforced polymer (FRP) laminates (especially with brittle thermosetting resins) to enhance interlaminar fracture toughness and compression after impact (CAI) strength. There has been considerable interest in the past decades in using nanoparticles as secondary reinforcement, in addition to the primary reinforcing fibres in FRP laminates, in a "hybrid" approach. This is based on the clear improvement in mode I fracture toughness of nanoparticle-modified resin matrices, G(IC)(m), with the aim of increasing interlaminar fracture toughness, G(IC)(c) and G(IIC)(c), and further enhancing the CAI strength of FRP laminates. With addition of nanoparticles, G(IC)(c) is effectively increased; however, the transfer efficiency from G(IC)(m) to G(IC)(c) is generally similar to that for composites with conventional unmodified matrices, with G(IC)(c) /G(IC)(m) > 1 for brittle matrices but G(IC)(c) /G(IC)(m) < 1 for very tough matrices. Nanoparticles seem to have extended the regime of G(IC)(c) /G(IC)(m) > 1. However, the positive correlation between G(IC)(m), and G(IIC)(c) or CAI strength is not clear. To advance research in this area, a number of fundamental and technical issues must be resolved in order to fabricate high-performance composites with hybrid reinforcements, including (I) uniform dispersion and alignment of nanoparticles, (2) optimised interface between nanoparticles and matrix; and (3) low viscosity of nanoparticle-modified matrix resins for ease of impregnation of reinforcing fibres with a high volume fraction (>60 vol%). (C) 2013 Elsevier Ltd. All rights reserved.