[1] M PRUDENZIATI. Development and the implementation of high-temperature reliable heaters in plasma spray technology. Journal of Thermal Spray Technology, 17, 234-243(2008).

[2] R GADOW, A KILLINGER, C LI. Product development with thermally sprayed functional coatings on glass and glass-ceramics substrates. International Journal of Applied Ceramic Technology, 2, 493-503(2005).

[3] M PRUDENZIATI, L GUALTIERI M. Electrical properties of thermally sprayed Ni- and Ni₂₀Cr-based resistors. Journal of Thermal Spray Technology, 17, 385-394(2008).

[4] C CHANG, Z CHEN C, C SUN W et al. Microstructure and electrothermal properties of SiC/55MoSi₂ materials. Journal of Silicate, 231, 862-866(2003).

[5] S SCHEITZ, L TOMA F, M BERGER L et al. Thermisch gespritzte keramische Schichtheizelemente. Thermally Sprayed Multilayer Ceramic Heating Elements, 4, 88-92(2011).

[6] Y ZHANG, Y LI, C BAI. Microstructure and oxidation behavior of Si-MoSi₂ functionally graded coating on Mo substrate. Ceramics International, 43, 6250-6256(2017).

[7] Z FENG P, H QU X. Progress in the research and application of MoSi₂ heating element. China Molybdenum Indusry, 29, 38-42(2005).

[8] A BERZTISS D, R CERCHIARA R, A GULBRANSEN E et al. Oxidation of MoSi₂ and comparison with other silicide materials. Materials Science & Engineering A, 155, 165-181(1992).

[9] C CHOU T, G NIEH T. Mechanism of MoSi₂ pest during low temperature oxidation. Journal of Materials Research, 8, 214-226(1993).

[10] X FEI, Y NIU, H JI et al. Oxidation behavior of Al₂O₃ reinforced MoSi₂ composite coatings fabricated by vacuum plasma spraying. Ceramics International, 36, 2235-2239(2010).

[11] H HUANG H, S LIU Y, M CHEN Y et al. Effect of oxygen pressure on the microstructure and properties of the Al₂O₃-SiO₂ thin films deposited by E-beam evaporation. Surface & Coatings Technology, 200, 3309-3313(2006).

[12] S KÖBEL, J PLÜSCHKE, U VOGT et al. MoSi₂-Al₂O₃ electroconductive ceramic composites. Ceramics International, 30, 2105-2110(2004).

[13] L TOMA F, S SCHEITZ, M BERGER L et al. Comparative study of the electrical properties and characteristics of thermally sprayed alumina and spinel coatings. Journal of Thermal Spray Technology, 20, 195-204(2011).

[14] Y MAO J, M LIU, J MAO et al. Oxidation-resistance of ZrB₂-MoSi₂ composite coatings prepared by atmospheric plasma spraying. Journal of Inorganic Materials, 30, 282-286(2015).

[15] L WANG, Q FU, F ZHAO. Improving oxidation resistance of MoSi₂ coating by reinforced with Al₂O₃ whiskers. Intermetallics, 94, 106-113(2018).

[16] Z LIU X, M DENG C, G DENG C et al. Mullite-modified ZrB₂-MoSi₂ coating for carbon/carbon composites to withstand long term ablation. Ceramics International, 44, 4330-4337(2017).

[17] A NEWMAN, S SAMPATH, H HERMAN. Processing and properties of MoSi₂-SiC and MoSi₂-Al₂O₃. Materials Science & Engineering A, 261, 252-260(1999).

[18] Z WANG D, Y LIU X, Y ZUO T. MoSi₂-Mo₅Si₃ low temperature behavior of MoSi₂-Mo₅Si₃ composites. Journal of Rare Metal materials and Engineering, 31, 48-51(2002).

[19] M ZHOU H, Q LIU G, R XIAO L et al. Low temperature oxidation behavior of MoSi₂ composeties strengthened and toughened by Si₃N₄ particles and SiC whiskers. Journal of Inorganic Materials, 24, 929-933(2009).

[20] J MESCHTER P. Oxidation of MoSi₂/TiB₂ and MoSi₂/Al₂O₃ mixtures. Scripta Metallurgica Et Materialia, 25, 1065-1069(1991).

[21] T MARUYAMA, MK YANAGIHARA. High temperature oxidation and pesting ofo(Si,A)₂. Materials Science & Engineering A, 239-240, 828-841(1997).

[22] G WANG, K ZHAO S, W JIANG. Progress in the low temperature oxidation of MoSi₂. Journal of Inorganic Materials, 16, 1041-1048(2001).