[1] HE-JUN LI, HUI XUE, QIAN-GANG FU et al. Research status and prospect of anti-oxidation coatings for carbon/carbon composites. Journal of Inorganic Materials, 25, 338-343(2010).

[2] YA-LEI WANG, XIANG XIONG, GUO-DONG LI et al. Preparation and ablation properties of Hf(Ta)C co-deposition coating for carbon/carbon composites. Corrosion Science, 66, 177-182(2013).

[3] QIAN-GANG FU, HE-JUN LI, YONG-JIE WANG et al. Multilayer oxidation protective coating for C/C composites from room temperature 1500 ℃. Surface & Coating Technology, 204, 1831-1835(2010).

[4] YI ZENG, XIANG XIONG, SHUN GUO et al. SiC/SiC- YAG-YSZ oxidation protective coatings for carbon/carbon composites. Corrosion Science, 70, 68-73(2013).

[5] SHAO-LEI WANG, HONG LI, MU-SU REN et al. Fabrication and ablation performances of ZrC-SiC-C/C composites. Acta Materiae Compositae Sinica, 34, 1040-1047(2017).

[6] YA-RAN NIU, XU-EBIN ZHENG, CHUAN-XIAN DING. Fabrication and characterization of plasma-sprayed oxidation-resistant coatings. Thermal Spray Technology, 3, 1-9(2011).

[7] YA-RAN NIU, HONG-YAN WANG, HONG LI et al. Dense ZrB₂-MoSi₂ composite coating fabricated by low pressure plasma spray (LPPS). Ceramics International, 39, 9773-9777(2013).

[8] DONG-JIA YAO, HE-JUN LI, HENG WU et al. Ablation resistance of ZrC/SiC gradient coating for SiC-coated carbon/carbon composites prepared by supersonic plasma spraying. Journal of the European Ceramic Society, 36, 3739-3746(2016).

[9] YU-JUN JIA, HE-JUN LI, QIAN-GANG FU et al. Ablation resistance of supersonic atmosphere plasma spraying ZrC coating doped with ZrO₂ for SiC-coated carbon/carbon composites. Corrosion Science, 123, 40-54(2017).

[10] P ARAUJO, D CHICOT, M STAIA et al. Residual stresses and adhesion of thermal spray coatings. Surface Engineering, 21, 35-40(2013).

[11] S KURODA, T DENDO, S KITAHARA. Quenching stress in plasma sprayed coatings and its correlation with the deposit microstructure. Journal of Thermal Spray Technology, 4, 75-84(1995).

[12] L WANG, H ZHONG X, X ZHAO Y et al. Design and optimization of coating structure for the thermal barrier coatings fabricated by atmospheric plasma spraying via finite element method. Journal of Asian Ceramic Societies, 2014, 102-116.

[13] YAN-PING LI, WAN-HUA ZHAO, BING-HENG LU. Prediction and control of residual stresses in thermal sprayed coatings. Engineering Mechanics, 22, 236-240(2005).

[14] R GHAFOURHI-AZAR, MOSTAGHIMIJ, S CHANDRA. Modeling development of residual stresses in thermal spray coatings. Computational Materials Science, 35, 13-26(2006).

[15] JIA-SHENG YANG, JIAN-HUA YU, XING-HUA ZHONG et al. Experimental and numerical investigation of residual stresses in plasma-sprayed thermal barrier coatings. Journal of Inorganic Materials, 28, 1381-1386(2013).

[16] P BANSAL N. Handbook of ceramic composites. Springer, 207(2006).

[17] FA-JUN YI, WEI ZHANG, SONG-HE MENG et al. An experimental study on thermophysical properties of C/C composites at elevated temperature. Journal of Astronautics, 23, 85-88(2002).

[18] ZHAN-CHANG LI, HONG-SHENG JIA, HONG-AN MA et al. FEM analysis on the effect of cobalt content on thermal residual stress in polycrystalline diamond compact (PDC). Science China: Physics, Mechanics&Astronomy, 639-643(2012).

[19] PING LU, ZUOMING LIU. Mixed-mode of elastic modulus composites based on the α factor. Journal of Wuhan University of Technology, 9, 19-22(2008).

[20] XIAN-CHENG ZHANG, JIAN-MING GONG, SHAN-DONG TU et al. The effect of coating size and material property on the residual stress in plasma spraying. Journal of Nanjing University of Technology, 25, 63-68(2003).

[22] LI-PING NIU, TING-AN ZHANG, GUAN-YONG SHI et al. Residual stresses of plasma-spraying coating of thin-walled part. Journal of Northeastern University (Natural Science), 32, 1448-1451(2011).

[23] H SINGH, S SIDHU B, D PURI et al. Use of plasma spray technology for deposition of high temperature oxidation/corrosion resistant coatings-a review. Mater. Corros, 58, 92-102(2015).

[24] H SCHNEIBEL J, J RAWN C, A PAYZANT E et al. Controlling the thermal expansion anisotropy of Mo₅Si₃ and Ti₅Si₃ silicides. Intermetallics, 12, 845-850(2014).

[25] XIAO-AI FEI, YA-RAN NIU, HENG JI et al. A comparative study of MoSi₂ coatings manufactured by atmospheric and vacuum plasma spray processes. Ceramics International, 813-817(2011).