【Composites Science and Technology】Highly thermally conductive flame-retardant epoxy nanocomposites with reduced ignitability and excellent electrical conductivities
writer:Junwei Gu, Chaobo Liang, Xiaomin Zhao, Bin Gan, Hua Qiu, Qiuyu Zhang
keywords:Polymer-matrix composites (PMCs); Thermal properties; Thermogravimetric analysis (TGA); Casting
source:期刊
specific source:http://www.sciencedirect.com/science/article/pii/S0266353816314361
Issue time:2017年
A highly efficient phenylphosphonate-based flame-retardant epoxy resin (FREP) was firstly prepared from phenylphosphonic dichloride (PPDCl) and allylamine (AA). Functionalized graphite nanoplatelets (fGNPs) fillers were then performed to fabricate the fGNPs/FREP nanocomposites via mixing followed by casting method. The thermally conductive coefficient (λ), thermal diffusivity (α), flame retardancy, electrical conductivities and thermal stabilities of the fGNPs/FREP nanocomposites were all enhanced with the increasing addition of fGNPs fillers. The λ and α value of the fGNPs/FREP nanocomposite with 30 wt%fGNPs fillers was increased to 1.487 W/mK and 0.990 mm2/s, about 7 times and 6 times for that of pure FREP matrix (0.234 W/mK and 0.170 mm2/s), respectively. And the corresponding electrical conductivity was also increased to 5.0 × 10?4 S/cm, far better than that of pure FREP matrix (1.0 × 10?12 S/cm). In comparison with that of pure FREP, the THR and TSP value of the fGNPs/FREP nanocomposite with 15 wt% fGNPs fillers was decreased by 37% and 32%, respectively, char yield was increased by 13%, and LOI value was increased from 31% to 37%. However, the peak of heat release rate of thefGNPs/FREP nanocomposite became worse due to its high thermal conductivity. Nanoindentation revealed that there was negligible influence of fGNPs fillers on the hardness values and Young''s modulus of the fGNPs/FREP nanocomposites.