[4] B XU, R HE, C HONG et al. Ablation behavior and mechanism of double-layer ZrB2-based ceramic coating for lightweight carbon- bonded carbon fiber composites under oxyacetylene flame at elevate temperature. Journal of Alloys and Compounds, 551(2017).
[5] W SUN, Z HAO, X XIONG et al. Microstructure and cyclic ablation behaviour of a Si-Mo-Ti protected C/C composites by a two- step method. Materials at High Temperatures, 38, 114(2021).
[6] Y XU, W SUN, X XIONG et al. Microstructure and ablation resistance of ZrC
[7] Y WANG, L GUO, Y ZHANG et al. Ablation behaviors and mechanism of ZrC-SiC-Si/SiC-Si double-layered coatings on C/C composite under plasma flame at 3000 ℃. Corrosion Science, 111200(2023).
[8] N DENG, W SUN, X XIONG et al. ZrC, HfC, and ZrC/Zr
[9] S TORABI, Z VALEFI, N EHSANI. Ablation behavior of SiC/ZrB2 ultra-high temperature ceramic coatings by solid shielding shrouded plasma spray for high-temperature applications (temperature above 2000 ℃). Surface and Coatings Technology.
[10] F Y CAI, D W NI, S M DONG. Research progress of high-entropy carbide ultra-high temperature ceramics. Journal of Inorganic Materials, 39, 591(2024).
[11] X H ZHANG, Y M WANG, Y CHENG et al. Research progress on ultra-high temperature ceramic composites. Journal of Inorganic Materials, 39, 571(2024).
[13] K HUANG, Y XIA, A WANG. High temperature oxidation and oxyacetylene ablation properties of ZrB2-ZrC-SiC ultra-high temperature composite ceramic coatings deposited on C/C composites by laser cladding. Coatings, 13, 173(2023).
[14] H LIU, X YANG, C FANG et al. Ablation resistance and mechanism of SiC-LaB6 and SiC-LaB6-ZrB2 ceramics under plasma flame. Ceramics International, 46, 16249(2020).
[15] Y JIANG, C HU, B LIANG et al. Cyclic ablation resistance at 2300 ℃ of (Hf0.4Zr0.4Ta0.2)B2-SiC-Si coating for C/SiC composites prepared by SiC-assisted reactive infiltration of silicon. Surface and Coatings Technology, 129072(2022).
[16] P ZHANG, C CHENG, M XU et al. High-entropy (Hf0.25Zr0.25- Ti0.25Cr0.25)B2 ceramic incorporated SiC-Si composite coating to protect C/C composites against ablation above 2400 K. Ceramics International, 48, 27106(2022).
[17] N YAN, J ZHANG, T LIU et al. One-step preparation and ablation behavior of ZrC-SiC-Si coating for nose-shaped ZrC/C composites with gradient pore structure by vapor silicon infiltration. Corrosion Science, 110505(2022).
[18] J ZHANG, Y ZHANG, X ZHU et al. A novel Hf0.75Zr0.25N solid solution coating with high mechanical strength: ablation protection application above 2200 ℃. Ceramics International, 49, 26022.
[19] J ZHANG, Y ZHANG, R CHEN et al. Effect of microstructure on the ablation behavior and mechanical properties of CVD-HfC coating. Corrosion Science, 109815(2021).
[21] S A A SHALMANI, M SOBHANI, O MIRZAEE et al. Effect of HfB2 and WC additives on the ablation resistance of ZrB2-SiC composite coating manufactured by SPS. Ceramics International, 46, 25106(2020).
[23] R ALIASGRIAN, M NADERI, S E MIRSALEHI et al. The ablation behavior of ZrB2-SiC coating prepared by shrouded plasma spray on SiC-coated graphite. Journal of Alloys and Compounds, 797(2018).
[24] D HU, Q FU, L ZHOU et al. Grain growth limitation in the monolayer ZrB2-SiC coating above 1700 °C. Ceramics International, 48, 14767(2022).
[25] Y BAI, Q WANG, Z MA et al. Characterization and ablation resistance of ZrB2-
[26] P WANG, S ZHOU, P HU et al. Ablation resistance of ZrB2- SiC/SiC coating prepared by pack cementation for graphite. Journal of Alloys and Compounds, 203(2016).
[27] P WANG, H LI, Y JIA et al. Ablation resistance of HfB2-SiC coating prepared by
[28] P WANG, S LI, C WEI et al. Microstructure and ablation properties of SiC/ZrB2-SiC/ZrB2/SiC multilayer coating on graphite. Journal of Alloys and Compounds, 26(2019).
[29] Y JIANG, T LIU, H RU et al. Ultra-high-temperature ceramic TaB2-SiC-Si coating by impregnation and
[30] A SHI, X YANG, C FANG et al. Microstructure and ablation behavior of Zr-Ti-Si-C multiphase coating fabricated by solid solution and
[31] C LIU, L CAO, J CHEN et al. Microstructure and ablation behavior of SiC coated C/C-SiC-ZrC composites prepared by a hybrid infiltration process. Carbon, 196(2013).
[32] C FANG, X YANG, K HE et al. Microstructure and ablation properties of La2O3 modified C/C-SiC composites prepared
[33] L XUE, Z SU, X YANG et al. Microstructure and ablation behavior of C/C-HfC composites prepared by precursor infiltration and pyrolysis. Corrosion Science, 165(2015).
[34] Y JIANG, T LIU, H RU et al. Oxidation and ablation protection of multiphase Hf0.5Ta0.5B2-SiC-Si coating for graphite prepared by dipping-pyrolysis and reactive infiltration of gaseous silicon. Applied Surface Science, 527(2018).
[35] L ZHOU, J ZHANG, D HU et al. Investigation on the oxidation and ablation behaviors of HfB2-SiC-Si/SiC-Si coatings for carbon/carbon composites. Corrosion Science, 109638(2021).
[36] L ZHOU, J ZHANG, D HU et al. High temperature oxidation and ablation behaviors of HfB2-SiC/SiC coatings for carbon/carbon composites fabricated by dipping-carbonization assisted pack cementation. Journal of Materials Science & Technology, 88(2022).
[37] Y JIANG, T LIU, H RU et al. Oxidation and ablation protection of double layer HfB2-SiC-Si/SiC-Si coating for graphite materials. Journal of Alloys and Compounds, 761(2019).
[38] P TANG, C HU, Y JIANG et al. Facile preparation of SiC/ZrB2- SiC-Si coatings on Cf/SiC composites for ultrahigh temperature ablation resistance. Corrosion Science, 112051(2024).
[40] R D ZHAO, S F TANG. Research progress of ceramic matrix composites prepared by improved reactive melt infiltration through ceramization of porous carbon matrix. Journal of Inorganic Materials, 39, 623(2024).
