H Mei et al. Materials Science and Engineering A 460-461(2007)306-313 former and the superficial oxidation governed by a parabolic F Christin, in: w. Krenkel, R. Naslain, H. Schneider(Eds ) High Temper- diffusion-controlled kinetics mechanism for the latter ature Ceramic Matrix Composites, vol 4, WILEY-VCH Press, Weinheim, 2001,pp.731-743. Acknowledgements [5] SSchmidt, S. Beyer, H. Knabe, H. Immich, R. Meistring, A. Gessler, Acta [6] J.E. Webb, R.N. Singh, J Am Ceram Soc. 79(11)(1996)2857. Financial support for this work was provided by the Nat- [7 R.N. Singh, H Wang Compos. Eng. 5(10-11)(1995)1287 ural Science Foundation of China( Contract No. 90405015) [8]X W Yin, L.F. Cheng. Carbon 40(2002)905 nd the National Young Elitists Foundation (Contract No. [9]K. Biemacki, W. Szyszkowski, S. Yannacopoulos, Compos. Part A 30 50425208). The authors also gratefully acknowledge the Pro- (1999)1027 ram for Changjiang Scholars and Innovative Research Team [10] H. Mei, L F Cheng, L.T. Zhang, X.G. Luan, J. Zhang, Carbon 44(2006) university(PCSIrT) [11] L.F. Cheng, Y D. Xu, L.T. Zhang, Q Zhang, Carbon 411(2002)1645 [12] M.S. Aly-Hassan, H. Hatta, S. Wakayama, M. Watanabe, K. Miyagawa, References Carbon41(2003)1069. [13]H. Mei, L.F. Cheng, L.T. Zhang, Y.D. Xu, Mater. Sci. Eng A430(2006) [1] F Lamouroux, X. Bourrat, J. Sevely, R. Naslain, Carbon 31(8)(1993) 314 [14] H. Mei, L F Cheng, L.T. Zhang, Scr. Mater. 54(2006)163 [2] J.C. Cavalier, A. Lacombe, J.M. Rouges, in: A.R. Bunsell, P. Lamicq, A. 1151 S Zhua, M. Mizunob, Y. Kagawac, Y. Mutoh, Compos. Sci. TechnoL. 59 Massiah(Eds ) Developments in the Science and Technology of Composite (1999)833 Materials, Elsevier, London, UK, 1989, Pp. 99-110. [16] A.J. Eckel, J D. Cawley, T.A. Parthasarathy. J Am Ceram Soc. 78(4) [3] K.A. Appiah, ZL Wang, w. Lackey, Carbon 38(2000)83H. Mei et al. / Materials Science and Engineering A 460–461 (2007) 306–313 313 former and the superficial oxidation governed by a parabolic diffusion-controlled kinetics mechanism for the latter. Acknowledgements Financial support for this work was provided by the Natural Science Foundation of China (Contract No. 90405015) and the National Young Elitists Foundation (Contract No. 50425208). The authors also gratefully acknowledge the Program for Changjiang Scholars and Innovative Research Team in university (PCSIRT). References [1] F. Lamouroux, X. Bourrat, J. Sevely, R. Naslain, Carbon 31 (8) (1993) 1273. [2] J.C. Cavalier, A. Lacombe, J.M. Rouges, in: A.R. Bunsell, P. Lamicq, A. Massiah (Eds.), Developments in the Science and Technology of Composite Materials, Elsevier, London, UK, 1989, pp. 99–110. [3] K.A. Appiah, Z.L. Wang, W.J. Lackey, Carbon 38 (2000) 831. [4] F. Christin, in: W. Krenkel, R. Naslain, H. Schneider (Eds.), High Temperature Ceramic Matrix Composites, vol. 4, WILEY-VCH Press, Weinheim, 2001, pp. 731–743. [5] S. Schmidt, S. Beyer, H. Knabe, H. Immich, R. Meistring, A. Gessler, Acta Astronautica 55 (2004) 409. [6] J.E. Webb, R.N. Singh, J. Am. Ceram. Soc. 79 (11) (1996) 2857. [7] R.N. Singh, H. Wang, Compos. Eng. 5 (10–11) (1995) 1287. [8] X.W. Yin, L.F. Cheng, Carbon 40 (2002) 905. [9] K. Biernacki, W. Szyszkowski, S. Yannacopoulos, Compos. Part A 30 (1999) 1027. [10] H. Mei, L.F. Cheng, L.T. Zhang, X.G. Luan, J. Zhang, Carbon 44 (2006) 121. [11] L.F. Cheng, Y.D. Xu, L.T. Zhang, Q. Zhang, Carbon 411 (2002) 1645. [12] M.S. Aly-Hassan, H. Hatta, S. Wakayama, M. Watanabe, K. Miyagawa, Carbon 41 (2003) 1069. [13] H. Mei, L.F. Cheng, L.T. Zhang, Y.D. Xu, Mater. Sci. Eng. A430 (2006) 314. [14] H. Mei, L.F. Cheng, L.T. Zhang, Scr. Mater. 54 (2006) 163. [15] S. Zhua, M. Mizunob, Y. Kagawac, Y. Mutoh, Compos. Sci. Technol. 59 (1999) 833. [16] A.J. Eckel, J.D. Cawley, T.A. Parthasarathy, J. Am. Ceram. Soc. 78 (4) (1995) 972