Abstract

A C/C-TaB2-SiC composite was successfully prepared by high-solid-loading slurry impregnation combined with polymer infiltration and pyrolysis. The composite had a density of 3.46 g/cm3 and consisted of pyrolyzed carbon, carbon fibers, TaB2 particles, and precursor-derived SiC with their mass fractions of 7.8%, 13.0%, 58.6%, and 20.6%, respectively. The C/C-TaB2-SiC composite possessed a flexural strength of 248.2 ± 16.8 MPa and a fracture toughness of 13.7 ± 1.6 MPa·m1/2, and demonstrated a non-brittle fracture behavior. After exposure to oxyacetylene flame with a heat flux of 4.18 MW/m2 for 120 s, the ablation temperature of the sample surface reached a maximum of 2263°C, and the mass and line ablation rates were 2.24 mg/s and 12.92 μm/s, respectively. The ablation resistance mainly comes from the hindrance of oxygen diffusion by the oxide layer composed of tantalum oxide and a small amount of SiO2. The raw/processed data required to reproduce these findings cannot be shared at this time due to the fact that the authors do not have permission to share data.

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