Effects of SiC content on mechanical, thermal and ablative properties of carbon/phenolic composites

Abstract Silicon carbide (SiC) particles were utilized to improve the mechanical, thermal and anti-ablative properties of carbon/phenolic (C/Ph) composites. SiC–C/Ph composites were fabricated with different weight percentage of SiC by vacuum impregnation method. The mechanical and thermal properties were characterized by compression tests, thermal conductivity tests, and thermogravimetric analysis; meanwhile, ablation resistance was investigated using plasma wind tunnel tests and scanning electron microscopy. Experimental results showed that 5 wt% SiC modified C/Ph composites owned the optimum properties. Moreover, introducing SiC particles could result in an obvious decrease of compression strength, but an increase of thermal stability, thermal conductivity and anti-ablative performance. Notably, the ablation rate reached its the lowest point at 5% the SiC content in resin matrix composites.