468 S.Y. Park et al. Journal of the European Ceramic Society 20(2000)2463-2468 References 8. Cai. P.Z. Green. D.J. and Messing. G. M.. Constrained densi- fication of alumina/zirconia hybrid laminates, I: experimental 1. Morgan, P. E D. and Marshall, D. B. Functional interfaces for observations of processing defects. J. Am. Ceram. Soc., 1997, Kide/oxide composites. Mater. Sci. Eng. 4, 1993, 162, 15-25 808),19291939 2. Kuo, D. H. and Kriven, W. M, Chemical stability, micro- 9. Russo, C. J. Harmer. M. P, Chan. H. M. and Miller. G.A. structure and mechanical behavior of LaPOa-containing cera Design of a laminated ceramic composite for improve strength mics. Mater. Sci. Eng, 1996. A120. 123-134 and toughness. J. Am. Ceram Soc., 1992. 75(12). 3396-340 3. Morgan. P. E. D, Marshall. D. B. and Hously, R. M, High 10. Melendo, M. J. Clauss. C, Rodriguea, A. D. Herencia, A temperature stability of monazite-alumina composites. Mater and Moya, J. S, Microstructure and high-temperature mechan- Sci.Eng.,1995,A195,215-222 ical behavior of alumina/alumina-ytria-stabilized tetragonal zir- 4. Plucknett. K.P. Caceres C.H. Huhges C. and wilkinson. D. s. conia multilayer composites. J. Am. Ceram. Soc., 1997, 80(8) Processing of tape-cast laminates prepared from fine alumina/zir- conia powder. J. Am. Ceram. Soc., 1993, 7(8), 2145-2153 I1. Moya, M.S. and Osendi, M. I, Microstructure and mechanical 5. Requena, J, Moreno, R and Moya, J.S., Alumina and alumina properties of mullitezirconia composites. J. Mater. Sci, 1984. zirconia multilayer composites obtained by slip casting. J. Am 19(8),2909-2914 Ceran.Soc.1997,78(7),15ll-1513 12. Hillman, C. Suo, Z. and Lange. F. F, Cracking of laminates 6. Wang, H and Hu, X, Surface properties of ceramic laminates fab- subjected to biaxial tensile stresses. J. Am. Ceram. Soc., 1996, ricated by die pressing. J. Am. Ceram. Soc., 1996, 79(2),553-556 79(8),2127-2133 7. Sarkar, P, Huang, X. and Nicholson, P.s., Structural ceramic 13. Oechsner. M.. Suo. Z. and Lange. F. F. Crack bifurcation in microlaminates by electrophoretic deposition. J. Am. Ceram. laminar ceramic composites. J. A. Ceram. Soc., 1834, 79(7) Soc.1992,75(10),2907-2909 1838References 1. Morgan, P. E. D. and Marshall, D. B., Functional interfaces for oxide/oxide composites. Mater. Sci. Eng. A, 1993, 162, 15±25. 2. Kuo, D. H. and Kriven, W. M., Chemical stability, micro￾structure and mechanical behavior of LaPO4-containing cera￾mics. Mater. Sci. Eng., 1996, A120, 123±134. 3. Morgan, P. E. D., Marshall, D. B. and Hously, R. M., High temperature stability of monazite-alumina composites. Mater. Sci. Eng., 1995, A195, 215±222. 4. Plucknett, K. P., CaceÂres, C. H., Huhges, C. and Wilkinson, D. S., Processing of tape-cast laminates prepared from ®ne alumina/zir￾conia powder. J. Am. Ceram. Soc., 1993, 7(8), 2145±2153. 5. Requena, J., Moreno, R. and Moya, J. S., Alumina and alumina/ zirconia multilayer composites obtained by slip casting. J. Am. Ceram. Soc., 1997, 78(7), 1511±1513. 6. Wang, H. and Hu, X., Surface properties of ceramic laminates fab￾ricated by die pressing. J. Am. Ceram. Soc., 1996, 79(2), 553±556. 7. Sarkar, P., Huang, X. and Nicholson, P. S., Structural ceramic microlaminates by electrophoretic deposition. J. Am. Ceram. Soc., 1992, 75(10), 2907±2909. 8. Cai, P. Z., Green, D. J. and Messing, G. M., Constrained densi- ®cation of alumina/zirconia hybrid laminates, I: experimental observations of processing defects. J. Am. Ceram. Soc., 1997, 80(8), 1929±1939. 9. Russo, C. J., Harmer, M. P., Chan, H. M. and Miller, G. A., Design of a laminated ceramic composite for improve strength and toughness. J. Am. Ceram. Soc., 1992, 75(12), 3396±3400. 10. Melendo, M. J., Clauss, C., Rodriguea, A. D., Herencia, A. J. and Moya, J. S., Microstructure and high-temperature mechan￾ical behavior of alumina/alumina-ytria-stabilized tetragonal zir￾conia multilayer composites. J. Am. Ceram. Soc., 1997, 80(8), 2126±2130. 11. Moya, M. S. and Osendi, M. I., Microstructure and mechanical properties of mullite-zirconia composites. J. Mater. Sci., 1984, 19(8), 2909±2914. 12. Hillman, C., Suo, Z. and Lange, F. F., Cracking of laminates subjected to biaxial tensile stresses. J. Am. Ceram. Soc., 1996, 79(8), 2127±2133. 13. Oechsner, M., Suo, Z. and Lange, F. F., Crack bifurcation in laminar ceramic composites. J. Am. Ceram. Soc., 1834, 79(7), 1838. 2468 S.-Y. Park et al. / Journal of the European Ceramic Society 20 (2000) 2463±2468