Abstract
Carbon-fiber-reinforced silicon carbide composites (C/SiC) are promising materials for high-temperature, light weight structural components. However, a protective coating and environmental barrier coating (EBC) are necessary to prevent the oxidation of the carbon and the reaction of the formed silica scale with water vapor. Current EBC systems use multiple layers, each serving unique requirements. However, any mismatch in the coefficients of thermal expansion (CTE) creates internal stresses and might lead to crack formation. In this case, oxygen and water vapor penetrate through the EBC, reducing the lifetime of the component. Mullite (Al6Si2O13) is used in many known EBC systems on silicon-based ceramics either as an EBC itself or as a bondcoat. Due to its low CTE and its sufficient thermal cycling behavior, mullite was chosen in this investigation as a first layer. As mullite suffers loss of SiO2 when exposed to water vapor at high temperatures, an additional protective top coat is needed to complete the EBC system. Different oxides were evaluated to serve as top coat, especially high-temperature oxides with low coefficients of thermal expansion (LCTE). An EBC containing mullite as bondcoat and the LCTE oxide La2Hf2O7 as a top coat is proposed. Both layers were applied via atmospheric plasma spraying. In this paper, results of the influence of processing conditions on the microstructure of single mullite and LCTE oxide layers as well as mullite/LCTE oxide systems are presented. Special emphasis was directed toward the crystallinity of the mullite layer and, in the top layer, toward low porosity and reduced crack density.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
M. Aparicio and A. Durán, C/SiC Composite Materials for Structural Application at Elevated Temperatures. Part 1: Thermodynamic and Chemical Stability, Bol. Soc. Esp. Cerám. Vidrio, Vol 39 (No. 6), 2000, p 687–698 (in Spanish)
C. Vix-Guterl, C. Grotzinger, J. Dentzer, M.P. Bacos, and P. Ehrburger, Reactivity of a C/SiC Composite in Water Vapour, J. Eur. Ceram. Soc., Vol 21, 2001, p 315–323
J.A. Haynes, M.J. Lance, K.M. Cooley, M.K. Ferber, R.A. Lowden, and D.P. Stinton, CVD Mullite Coatings in High Temperature, HP Air-H2O, J. Am. Ceram. Soc., Vol 83 (No. 3), 2000, p 657–659
H. Fritze, J. Jojic, T. Witke, C. Rüscher, S. Weber, S. Scherrer, R. Weiß, B. Schultrich, and G. Borchardt, Mullite Based Oxidation Protection for SiC-C/C Composites in Air at Temperatures up to 1900 K, J. Eur. Ceram. Soc., Vol 18, 1998, p 2351–2364
K.N. Lee, Current Status of Environmental Barrier Coating for Si-based Ceramics, Surf. Coat. Technol., Vol 133–134, 2000, p 1–7
R. Torrecillas, J.M. Calderón, J.S. Moya, M.J. Reece, C.K.L. Davies, C. Olagnon, and G. Fantozzi, Suitability of Mullite for High Temperature Applications, J. Eur. Ceram. Soc., Vol 19, 1999, p 2519–2527
M. Aparicio and A. Duran, Yttrium Silicate Coatings for Oxidation Protection of Carbon-Silicon Carbide Composites, J. Am. Ceram. Soc., Vol 83 (No. 6), 2000, p 1351–1355
J.I. Eldridge and K.N. Lee, Phase Evolution of BSAS in Environmental Barrier Coatings, 25th Annual Conference on Composites, Advanced Ceramics, Materials, and Structures, January 21–27, Cocoa Beach, FL, Ceram. Eng. Sci. Proc. (USA), 2001, Vol 22 (No. 4), p 382–390
P.H. McCluskey, H.E. Eaton, D.R. Godin, G.E. Foster, H.D. Harter, S. Chin, G.A. Cotnoir, and C.A. Ellis, Plasma Sprayed Mullite Coatings on Silicon Based Ceramic Materials, US Patent No. 5 869 146, February 9, 1999
I.T. Spitsberg, H. Wang, and R.W. Heidorn, Method for Thermally Spraying Crack-free Mullite Coatings on Ceramic-based Substrates, US Patent No. 6 296 909 B1, October 2, 2001
M. Müller, J. Mentz, H.-P. Buchkremer, and D. Stöver, Modification of the Liquid Silicon Infiltration Process for C/SiC Production, 26th Annual Conference on Composites, Advanced Ceramics, Materials, and Structures, January 13–18, Cocoa Beach, FL, Ceram. Eng. Sci. Proc. (USA) 2002, Vol 23 (No. 3), p 339–346
K.N. Lee, R.A. Miller, and N.S. Jacobson, New Generation of Plasma-Sprayed Coatings on Silicon Carbide, J. Am. Ceram. Soc., 1995, Vol 78 (No. 3), p 705–710
C. Funke, B. Siebert, R. Vaßen, D. Stöver, and J.C. Mailand, Characterization of ZrO2-7wt.% Y2O3 Thermal Barrier Coatings with Different Porosities and FEM Analysis of Stress Redistribution during Thermal Cycling of TBCs, Surf. Coat. Technol., Vol 94–95 (No. 1–3), 1997, p 106–111
R. Vaßen, N. Czech, W. Malléner, W. Stamm, and D. Stöver, Influence of Impurity Content and Porosity of Plasma Sprayed Yttria Stabilized Zirconia Layers on the Sintering Behaviour, Surf. Coat. Technol., Vol 141, 2001, p 135–140
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Latzel, S., Vaßen, R. & Stöver, D. New environmental barrier coating system on carbon-fiber reinforced silicon carbide composites. J Therm Spray Tech 14, 268–272 (2005). https://doi.org/10.1361/10599630523854
Received:
Revised:
Issue Date:
DOI: https://doi.org/10.1361/10599630523854