▎ 摘　　要

This work aims to assess the effect of maleic anhydride functionalized graphene oxide (MAH-f-GO) on the interfacial properties of carbon fibre/bismaleimide (BMI) composites by experimental and finite element (FE) methods. Transverse fibre bundle (TFB) specimens with different contents of MAH-f-GO nanoparticles were manufactured to investigate the interfacial strength of the carbon fibre/BMI composites. The fracture surface of the TFB specimens was examined by scanning electron microscopy to observe the morphologies of the fibre-matrix interface. The coefficient of thermal expansion, cure shrinkage and elastic modulus were measured and included in the FE simulation. An FE analysis model was established to simulate the thermal residual stress distribution around the carbon fibre and to estimate the interfacial bonding strength of the TFB specimens. The combination of experimental and FE analysis results indicated that the addition of MAH-f-GO nanoparticles noticeably reduced the concentration of residual stress at the fibre-matrix interface and enhanced the interfacial properties of the carbon fibre/BMI composites.(c) 2017 Society of Chemical Industry