[1] ZHANG X H, WANG Y M, CHENG Y et al. Research progress on ultra-high temperature ceramic composites[J]. Journal of Inorganic Materials, 571(2024).

[2] PADTURE N P. Advanced structural ceramics in aerospace propulsion[J]. Nature Materials, 804(2016).

[3] XIAO P, ZHU Y L, WANG S et al. Research progress on the preparation and characterization of ultra refractory Ta_xHf_1-xC solid solution ceramics[J]. Journal of Inorganic Materials, 685(2021).

[4] SMITH C J, YU X X, GUO Q Y et al. Phase, hardness, and deformation slip behavior in mixed Hf_xTa_1-xC[J]. Acta Materialia, 142(2018).

[6] PAN R Q, CHEN G Q, YU X M et al. Densification, microstructure and mechanical properties of Ta₄HfC₅-based ceramics obtained from synthesized nanoscale powder[J]. Journal of the European Ceramic Society, 2247(2021).

[7] QIN Y Y, NI D W, CHEN B W et al. Low-temperature reactive hot-pressing of Ta_0.2Hf_0.8C-SiC ceramics at 1700 ℃[J]. Journal of the American Ceramic Society, 4390(2023).

[8] NI D W, QIN Y Y, DONG S M. Microstructure and mechanical behavior of Ta_xHf_1-xC-SiC fabricated by reactive hot-pressing: effect of Ta : Hf ratio[J]. Journal of the American Ceramic Society, 6974(2024).

[9] ZOU X G, NI D W, CHEN B W et al. Fabrication and mechanical behavior of 2D-C_f/Ta_xHf_1-xC-SiC composites by a low-temperature and highly-efficient route[J]. Journal of Advanced Ceramics, 1961(2023).

[10] ZOU X G, NI D W, CHEN B W et al. Fabrication and properties of Cf/Ta₄HfC₅-SiC composite via precursor infiltration and pyrolysis[J]. Journal of the American Ceramic Society, 6601(2021).

[11] ZHANG B H, WANG Y W, YIN J et al. Carbon deficiency introduced plasticity of rock-salt-structured transition metal carbides[J]. Journal of Materials Science & Technology, 205(2023).

[12] XIAO P, WANG S, LI W et al. Novel strong and tough Ta/TaHfC₂ composites with multi-scale laminated structure[J]. Journal of the American Ceramic Society, 4291(2022).

[13] XIAO P, DAI H L, LI Z J et al. Composition, microstructure, and mechanical properties evolution behaviors of Ta/TaHfC₂ laminated composite between 1873-2673 K[J]. International Journal of Refractory Metals and Hard Materials, 106642(2024).

[14] ZHANG J, JIANG J M, SONG Q et al. Ultra-high temperature ablation property of Ta_0.5Hf_0.5C ternary ceramic under plasma flame[J]. Ceramics International, 28050(2021).

[15] ZHANG B H, YIN J, ZHENG J Q et al. High temperature ablation behavior of pressureless sintered Ta_0.8Hf_0.2C-based ultra-high temperature ceramics[J]. Journal of the European Ceramic Society, 1784(2020).

[16] VOITOVICH V B, LAVRENKO V A, ADEJEV V M et al. High-temperature oxidation of tantalum of different purity[J]. Oxidation of Metals, 509(1995).

[17] JIANG J M, WANG S, LI W. Preparation and characterization of ultrahigh-temperature ternary ceramics Ta₄HfC₅[J]. Journal of the American Ceramic Society, 3198(2016).

[18] ZHANG J, WANG S, LI W. Consolidation and characterization of highly dense single-phase Ta-Hf-C solid solution ceramics[J]. Journal of the American Ceramic Society, 58(2019).

[19] YIN J, ZHANG H B, XIONG X et al. Ablation performance of carbon/carbon composite throat after a solid rocket motor ground ignition test[J]. Applied Composite Materials, 237(2012).

[20] ZHANG W Z, TAN M Y, CHEN D M et al. Sugar-derived nanocrystalline graphite matrix C/C composites with excellent ablative resistance at 3000 ℃[J]. Advanced Materials, 2309899(2024).

[21] YAGHOBIZADEH O, SEDGHI A, BAHARVANDI H R. Effect of Ti₃SiC₂ on the ablation behavior and mechanism of Cf-C-SiC- Ti₃SiC₂ composites under oxyacetylene torch at 3000 ℃[J]. Ceramics International, 777(2019).

[22] ZENG Y, XIONG X, LI G D et al. Microstructure and ablation behavior of carbon/carbon composites infiltrated with Zr-Ti[J]. Carbon, 300(2013).

[23] ZENG Y, WANG D N, XIONG X et al. Ablation-resistant carbide Zr_0.8Ti_0.2C_0.74B_0.26 for oxidizing environments up to 3000 ℃[J]. Nature Communications, 15836(2017).

[24] MCCORMACK S J, KRIVEN W. Crystal structure solution for the A₆B₂O₁₇ (A=Zr, Hf; B=Nb, Ta) superstructure[J]. Acta Crystallographica Section B-Structural Science, Crystal Engineering and Materials, 227(2019).

[25] YANG Y, KAWAZOE Y. Prediction of new ground-state crystal structure of Ta₂O₅[J]. Physical Review Materials, 034602(2018).

[26] ZHANG J, WANG S, LI W et al. Understanding the oxidation behavior of Ta-Hf-C ternary ceramics at high temperature[J]. Corrosion Science, 108348(2020).