[1] LI Q G, DONG S M, WANG Z et al. Fabrication and properties of 3D C_f/ZrC-SiC composites by the vapor silicon infiltration process[J]. Ceramics International, 39, 4723(2013).

[2] YAN C L, LIU R J, CAO Y B et al. Fabrication and properties of PIP 3D C_f/ZrC-SiC composites[J]. Materials Science and Engineering: A, 591: 105(2014).

[3] LI H J, HE Q C, WANG C C et al. Effects of precursor feeding rate on the microstructure and ablation resistance of gradient C/C-ZrC-SiC composites prepared by chemical liquid-vapor deposition[J]. Vacuum, 164: 265(2019).

[4] WANG D, WANG Y J, RAO J C et al. Influence of reactive melt infiltration parameters on microstructure and properties of low temperature derived C_f/ZrC composites[J]. Materials Science and Engineering: A, 568: 25(2013).

[5] OUYANG H B, LI G B, LI C Y et al. Microstructure and ablation properties of C/C-Zr-Si-O composites prepared by carbothermal reduction of hydrothermal co-deposited oxides[J]. Materials & Design, 159: 145(2018).

[6] MA X, CHEN S A, MEI M et al. Influence of total pressure on the microstructures and growth mechanism of ZrC coatings prepared by chemical vapor deposition from the Zr-Br₂-C₃H₆-H₂-Ar system[J]. Ceramics International, 43, 3501(2017).

[7] CAI F Y, NI D W, BAO W C et al. Ablation behavior and mechanisms of C_f/(Ti_0.2Zr_0.2Hf_0.2Nb_0.2Ta_0.2)C-SiC high-entropy ceramic matrix composites[J]. Composites Part B: Engineering, 243, 110177(2022).

[8] XU J, GUO L J, KONG J G et al. The mechanical properties of C/C-ZrC-SiC composites after laser ablation[J]. Journal of the European Ceramic Society, 43, 6732(2023).

[9] MA J C, KUO S J, YANG S B et al. Ablation performance of C/C-ZrC-SiC composites with in-situ YSi₂-doped ZrC-SiC-ZrSi₂ coating under oxyacetylene torch[J]. Corrosion Science, 209: 110802(2022).

[10] LIU Y C, XIA Z X, MA L K et al. Microstructure and ablation mechanism of C/C-ZrC-SiC composite in the solid scramjet plumes environment[J]. Materials Characterization, 198: 112754(2023).

[11] ZHU Y, WANG S, CHEN H et al. Microstructure and mechanical properties of C_f/ZrC composites fabricated by reactive melt infiltration at relatively low temperature[J]. Ceramics International, 39: 9085(2013).

[12] CHEN S A, LI G D, HU H F et al. Microstructure and properties of ablative C/ZrC-SiC composites prepared by reactive melt infiltration of zirconium and vapour silicon infiltration[J]. Ceramics International, 43, 3439(2017).

[13] ZHAO X, WANG Y G, DUAN L Y et al. Improved ablation resistance of C/SiC-ZrB₂ composites via polymer precursor impregnation and pyrolysis[J]. Ceramics International, 43, 12480(2017).

[14] ZHANG D Y, HU P, DONG S et al. Oxidation behavior and ablation mechanism of C_f/ZrB₂-SiC composite fabricated by vibration- assisted slurry impregnation combined with low-temperature hot pressing[J]. Corrosion Science, 161: 108181(2019).

[15] SIMONENKOA E P, SEVAST’YANOVA D V, SIMONEKO N P et al. Promising ultra-high-temperature ceramic materials for aerospace applications[J]. Russian Journal of Inorganic Chemistry, 58, 1669(2013).

[16] PAUL A, JAYASEELAN D D, VENUGOPAL S et al. UHTC composites for hypersonic applications[J]. American Ceramic Society Bulletin, 91, 22(2012).

[17] SAYIR A. Carbon fiber reinforced hafnium carbide composite[J]. Journal of Materials Science, 39, 5995(2004).

[18] KOU S J, MA J C, MA Y J et al. Microstructure and flexural strength of C/HfC-ZrC-SiC composites prepared by reactive melt infiltration method[J]. Journal of the European Ceramic Society, 43, 1864(2023).

[19] ZHANG J P, XIN Y P, WANG R N et al. Ablation behavior of C/C-HfC-SiC composites prepared by joint route of precursor infiltration and pyrolysis and gaseous silicon infiltration[J]. Chinese Journal of Aeronautics, 36, 426(2023).

[20] YAN C L, LIU R J, ZHANG C R et al. Zirconium carbide, hafnium carbide and their ternary carbide nano particles by an in situ polymerization route[J]. RSC Advances, 5: 36520(2015).

[21] TANG Z X, YI M Z, XIANG Q L et al. Mechanical and ablation properties of a C/C-HfB₂-SiC composite prepared by high-solid- loading slurry impregnation combined with precursor infiltration and pyrolysis[J]. Journal of the European Ceramic Society, 41, 6160(2021).

[24] LIU Y S, WAN J J, ZUO X Z et al. Oxidation behavior of 2D C/SiC composites coated with multi-layer SiC/Si-B-C/SiC coating under wet oxygen atmosphere[J]. Applied Surface Science, 353: 214(2015).

[25] WANG G X, LU G Q, PEI B Y et al. Oxidation mechanism of Si₃N₄-bonded SiC ceramics by CO, CO₂ and steam[J]. Journal of Materials Science, 33: 1309(1998).

[26] SHIN D W, ARRÓYAVE R, LIU Z K. Thermodynamic modeling of the Hf-Si-O system[J]. Calphad, 30, 375(2006).