Effects of oxidizing species on ablation behavior of C/C-ZrB2-ZrC-SiC composites prepared by precursor infiltration and pyrolysis

“…Yan et al prepared the C/C-ZrC-SiC composites by PIP method with different thicknesses of PyC interphase [29], which confirming that the mechanical and ablative performance of the composites can be optimized through adjusting the thicknesses of PyC layer. Moreover, ablation resistance of C/C-ZrB 2 -SiC composite under cyclic condition and different heat fluxes and combustion flames were also investigated [30][31][32]. In addition, the reported literature further verifies that the heat treatment temperature has profound effects on ablative and mechanical performance of C/C-UHTC composites [33].…”

“…In addition, the reported literature further verifies that the heat treatment temperature has profound effects on ablative and mechanical performance of C/C-UHTC composites [33]. Though the effects of microstructures, ablation environments, and fabrication method on ablation and mechanical properties of C/C-UHTC composites have been reported extensively [26][27][28][29][30][31][32][33], the performance discrepancy of C/C-UHTC composites in two directions are rarely mentioned. The different architecture and fiber-oriented direction in the preform will bring anisotropic ablation and mechanical properties.…”

Effect of fiber-oriented direction on mechanical and ablative performance of C/C-HfC-ZrC-SiC composites

“…Yan et al prepared the C/C-ZrC-SiC composites by PIP method with different thicknesses of PyC interphase [29], which confirming that the mechanical and ablative performance of the composites can be optimized through adjusting the thicknesses of PyC layer. Moreover, ablation resistance of C/C-ZrB 2 -SiC composite under cyclic condition and different heat fluxes and combustion flames were also investigated [30][31][32]. In addition, the reported literature further verifies that the heat treatment temperature has profound effects on ablative and mechanical performance of C/C-UHTC composites [33].…”

“…In addition, the reported literature further verifies that the heat treatment temperature has profound effects on ablative and mechanical performance of C/C-UHTC composites [33]. Though the effects of microstructures, ablation environments, and fabrication method on ablation and mechanical properties of C/C-UHTC composites have been reported extensively [26][27][28][29][30][31][32][33], the performance discrepancy of C/C-UHTC composites in two directions are rarely mentioned. The different architecture and fiber-oriented direction in the preform will bring anisotropic ablation and mechanical properties.…”

Effect of fiber-oriented direction on mechanical and ablative performance of C/C-HfC-ZrC-SiC composites

“…Hence, ultra-high temperature ceramics (UHTCs) have been introduced into C/SiM composites as the second phase of the matrix, encompassing many borides, carbides, and nitrides of early transition metals, particularly ZrB 2 and ZrC. The addition remarkably improves the ablative resistance of composites at elevated temperature [ 81 , 82 , 83 ]. Table 2 gives the recent ablation and oxidation properties of C/SiZrM composites.…”

Advances in Ablation or Oxidation Mechanisms and Behaviors of Carbon Fiber-Reinforced Si-Based Composites

“…Multiphase ceramics modified carbon matrix C/C composites are of two types, namely, carbides ceramics modified and boride–carbide ceramics modified C/C composites. Most works are based on SiC and ZrC carbide ceramics − and ZrB 2 as boride ceramics. − Zhao et al examined the ablation resistance of CF-reinforced zirconium carbide (C/ZrC) composite, wherein noted significant improvement in ablation resistance was attributed to ZrO 2 melt on the surface, which sealed the C/C composite pores. Subjected to an oxyacetylene torch test, with a heat flux of 4187 kW/m 2 and flame temperature of over 3000 °C, C/ZrC composite showed tremendous configurational stability for 60–300 s period.…”

Advances in Ablative Composites of Carbon Based Materials: A Review