N P Bansal /Journal of the European Ceramic Sociery 29(2009)525-535 Matrix Composites V, ed. N. P. Bansal, J. P. Singh, and E. Ustundag 23. Bansal, N. P, Hyatt, M. J and Drummond lll, C. H, Crys Ceram Soc., Westerville(OH): Ceram. Trans., 2000, 103, 291-306 properties of Sr-Ba aluminosilicate glass-ceramic matrice 13. Gouadec, G, Colomban, Ph and Bansal, N P, Raman study of Hi-Nicalon Sci.Pmoc.,1991,12(7-8),1222-1234 L. Distribution and different phases. J. Am. Ceram Soc., 2001, 84(5), 1129-1135. tide ee a nd bron mo m ovina the and h yoo resistace of ca boron. 14. Unal,Oand Bansal, N. P, In-plane and interlaminar shear strength of sil- eous structures. Carbon, 1995, 33(4), 389-395 icon carbide fiber-reinforced celsian composite Cera. Int, 2002, 28(5), 25. Marshall, D. B and Oliver, w C, Measurement of interfacial mechanical 527-540 properties in fiber-reinforced ceramic composites. J Am. Ceram Soc., 198 15. Bansal, N. P and Eldridge, J. I. Hi-Nicalon fiber-reinforced celsian matrix 70(8),542-548 composites: influence of interface modification. J Mater Res, 1998, 13(6), 26. Besmann, T M, Stinton, D. P, Kupp, E.R., Shanmugham, S and Liaw, P. 1530-1537. K, Fiber-matrix interfaces in ceramic composites. Mater. Res. Symp. Proc 16. Choi, S.R. and Bansal, N. P, Shear strength as a function of test rate 997,458.147-159 in SiC!/BSAS ceramic matrix composite at elevated temperature. J. Am. 27. Hsueh, C H, Becher, P F and Angelini, P, Effects of interfacial films on Ceram.Soc.,2004,87(10,1912-1918 thermal stresses in whisker reinforced ceramics. J. Am. Ceram. Soc. 198 17. Choi, S.R., Bansal, N. P. and Verrilli, M.J., Delayed failure of ceramic 71(11),929933 composites in tension at elevated temperature. J. Eur. Ceram Soc. 28. Kerans, R J, The role of coating compliance and fiber/matrix interfacial 2005,25(9),1629-1636. topography on debonding in ceramic composites. Scr. Metall. Mater. 18. DiCarlo, J. A and Yun, H M. Non-oxide(silicon carbide) fibers In hand- 32(4),505-509 book of Ceramic Composites, ed N P. Bansal. Kluwer Academic Publishers, 29. Kerans, R. J, Issues in the control of fiber-matrix interface properties in Boston(MA), 2005. Pp 33-52. ceramic composites. Scr Metall. Mater, 1994, 31(8), 1079-1084 19. Takeda, M, Sakamoto, J, Saeki, S, Imai, Y and Ichikawa, H, High per- 30. Levin, E. M. and McMurdie, H. F, Phase Diagram for Ceramists, formance silicon carbide fiber Hi-Nicalon for ceramic matrix composites. Vol. IlL. The Am. Ceram. Soc, Westerville(OH), 1975 Fig. 4544, Ceram. Eng. Sci. Proc., 1995, 16(4), 37-44 20. Bansal, N. P, Solid state synthesis and properties of monoclinic celsian. J. 31. Lee, K. N Fox, D. S, Eldridge, J. I, Zhu, D, Robinson, R. C, Bansal, Mater Sci.,1998,33(19),4711-4715 N. P. et aL., Upper temperature limit of environmental barrier coating 21. Eldridge, J I Desktop fiber push-out apparatus. NASA Technical Memo- based on mullite and BSAS. J. Am. Ceram. Soc.. 2003. 86(8). 1299- randu105341,1991 22. Bansal, N.P. and Chen, Y.L., Chemical, mechanical and microstruc- 32. Ruh,R, Mullite-SiC whisker and mullite/ZrO2-SiC whisker composites. tural characterization of low-oxygen containing silicon carbide fibers with In Handbook of Ceramic Composites, ed N P Bansal. Kluwer Academic ceramic coatings. J Mater: Sci., 1998, 33(22),5277-5289 Publishers, Boston(MA), 2005, pp. 325-346N.P. Bansal / Journal of the European Ceramic Society 29 (2009) 525–535 535 Matrix Composites V, ed. N. P. Bansal, J. P. Singh, and E. Ustundag. Am. Ceram. Soc., Westerville (OH); Ceram. Trans., 2000, 103, 291–306. 13. Gouadec, G., Colomban, Ph. and Bansal, N. P., Raman study of Hi-Nicalon fiber-reinforced celsian composites. I. Distribution and nanostructure of different phases. J. Am. Ceram. Soc., 2001, 84(5), 1129–1135. 14. Ünal, Ö. and Bansal, N. P., In-plane and interlaminar shear strength of sil￾icon carbide fiber-reinforced celsian composite. Ceram. Int., 2002, 28(5), 527–540. 15. Bansal, N. P. and Eldridge, J. I., Hi-Nicalon fiber-reinforced celsian matrix composites: influence of interface modification. J. Mater. Res., 1998, 13(6), 1530–1537. 16. Choi, S. R. and Bansal, N. P., Shear strength as a function of test rate in SiCf/BSAS ceramic matrix composite at elevated temperature. J. Am. Ceram. Soc., 2004, 87(10), 1912–1918. 17. Choi, S. R., Bansal, N. P. and Verrilli, M. J., Delayed failure of ceramic matrix composites in tension at elevated temperature. J. Eur. Ceram. Soc., 2005, 25(9), 1629–1636. 18. DiCarlo, J. A. and Yun, H. M., Non-oxide (silicon carbide) fibers. In Hand￾book of Ceramic Composites, ed. N. P. Bansal. Kluwer Academic Publishers, Boston (MA), 2005, pp. 33–52. 19. Takeda, M., Sakamoto, J., Saeki, S., Imai, Y. and Ichikawa, H., High per￾formance silicon carbide fiber Hi-Nicalon for ceramic matrix composites. Ceram. Eng. Sci. Proc., 1995, 16(4), 37–44. 20. Bansal, N. P., Solid state synthesis and properties of monoclinic celsian. J. Mater. Sci., 1998, 33(19), 4711–4715. 21. Eldridge, J. I. Desktop fiber push-out apparatus. NASA Technical Memo￾randum 105341, 1991. 22. Bansal, N. P. and Chen, Y. L., Chemical, mechanical and microstruc￾tural characterization of low-oxygen containing silicon carbide fibers with ceramic coatings. J. Mater. Sci., 1998, 33(22), 5277–5289. 23. Bansal, N. P., Hyatt, M. J. and Drummond III, C. H., Crystallization and properties of Sr–Ba aluminosilicate glass–ceramic matrices. Ceram. Eng. Sci. Proc., 1991, 12(7–8), 1222–1234. 24. Cofer, C. G. and Economy, J., Oxidative and hydrolytic stability of boron nitride–a new approach to improving the oxidation resistance of carbona￾ceous structures. Carbon, 1995, 33(4), 389–395. 25. Marshall, D. B. and Oliver, W. C., Measurement of interfacial mechanical properties in fiber-reinforced ceramic composites. J. Am. Ceram. Soc., 1987, 70(8), 542–548. 26. Besmann, T. M., Stinton, D. P., Kupp, E. R., Shanmugham, S. and Liaw, P. K., Fiber–matrix interfaces in ceramic composites. Mater. Res. Symp. Proc., 1997, 458, 147–159. 27. Hsueh, C. H., Becher, P. F. and Angelini, P., Effects of interfacial films on thermal stresses in whisker reinforced ceramics. J. Am. Ceram. Soc., 1988, 71(11), 929–933. 28. Kerans, R. J., The role of coating compliance and fiber/matrix interfacial topography on debonding in ceramic composites. Scr. Metall. Mater., 1995, 32(4), 505–509. 29. Kerans, R. J., Issues in the control of fiber–matrix interface properties in ceramic composites. Scr. Metall. Mater., 1994, 31(8), 1079–1084. 30. Levin, E. M. and McMurdie, H. F., Phase Diagram for Ceramists, Vol. III. The Am. Ceram. Soc, Westerville (OH), 1975 [Fig. 4544, p. 220]. 31. Lee, K. N., Fox, D. S., Eldridge, J. I., Zhu, D., Robinson, R. C., Bansal, N. P. et al., Upper temperature limit of environmental barrier coating based on mullite and BSAS. J. Am. Ceram. Soc., 2003, 86(8), 1299– 1306. 32. Ruh, R., Mullite-SiC whisker and mullite/ZrO2–SiC whisker composites. In Handbook of Ceramic Composites, ed. N. P. Bansal. Kluwer Academic Publishers, Boston (MA), 2005, pp. 325–346