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Microstructure-property relationships in silicate-matrix high temperature ceramics, Final report to European Commission omposites. J. Microscopy, 1993, 169, 109-12 Conract no: BRPR-CT97-069 December 200 3. Sutherland. S. Plucknett. K. P. and Lewis. M. H. High tem. Birmingham. June 19 perature mechanical and thermal stability of silicate matrix com- 18. Huzzard, R.J. and Black burn. S, Influence of solids loading on posites. J. Composites Eng, 1995. 5. 1367-137 4. Evans, A. G. Domergue, J-M. agagginL 49-56. for relating the tensile constitutive behaviour of ceramic-matrix 19. Draper, O, Blackburn, S, Dolman, G, Smalley, K. and grif- omposites to constituent properties. J. Am. Ceram. Soc., 1994 fiths, A, A comparison of paste rheology and extrudate strength 77,1425-1435 with respect to binder formulation and forming technique. Mater 5. Tu, W, Lange, F. F. and Evans, A. G, Concept for Processing Tech, 1999, 92-93, 141-146. olerant ceramic composite with "strong" interfaces. J. Am 20. Huzzard, R J and Blackburn, S, Slip flow in concentarted alu- 6. Shannon, T. and Blackburn, S, The production of alumina/zir- mina suspensions. Powder Technology, 1998 21. Benbow, J. and Bridgwater, J, Paste Flow and Extrusion. Clar- nia laminated composites by co-extrusion. Ceramic Engineering endon press. Oxford. 199 ld Science Proceedings, 1995, 16. 1115-1 120. ler E. g. and 7. Liang, Z and Blackburn, S, Co-extrusion of multilayered tubes cterisation of mullite(Nextel 720M)fibre-reinforced mullite In Proceedings of The Better Ceramics Through Processing, ed matrix composites from hydrothermally processed mullite pre- J. Yeomans and J. Binner. The Institute of Materials. London Ceramic Matrix Com 1998,pp.109115 MC 4), ed. w. Krenkel, R. Naslain and H. Schneider. wiley 8. Hoy, W, Barda, A. Griffith, M VCH, Weinheim, Germany, 2001, pp. 639-644 fabrication of ceramics by cowt and Halloran, J. w., MIcro- 23. Wendorff. J. Janssen. R. and Claussen. N. Platinum as a weak 1998,81,152-158. interphase for fiber-reinforced oxide-matrix composites. J. Am. 9. Crumm, A. T. and Halloran, J. W. Fabrication of micro- 24. Kaya, C, Kaya, F, Boccaccini, A.R. and Chawla,KK,Fab- Ceran.Soc.,1998,81,2738-2740. onfigured multicomponent ceramics. J. Am. Ceram Soc., 1998. 81,1053-1057 rication and characterisation of ni-coated carbon fibre- reinforced 10. Chen. Z. Ikeda. K. Murakami. T and Takeda. T. Extrusion of alumina ceramic matrix composites using electrophoretic deposi netal-ceramic composite pipes. J. Am. Ceram. Soc., 2000, 83 tion. Acta Materialia. 2001. 49. 1189-1197 1081-1086. 25. Mendelson, M. I, Average grain size in polycrystalline ceramics. 11. Kaya, C and Butler, E. G, Plastic forming and microstructural J.Am. Ceran.Soc.,1969,52,443-446 development of a-alumina ceramics from highly compacted green 26. Whorlow, R. W, Rheological Techniques. Ellis Horwood, Lon- odies using extrusion. J. Eur. Ceram. 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Wendorff, J., Janssen, R. and Claussen, N., Platinum as a weak interphase for fiber-reinforced oxide-matrix composites. J. Am. Ceram. Soc., 1998, 81, 2738–2740. 24. Kaya, C., Kaya, F., Boccaccini, A. R. and Chawla, K. K., Fab￾rication and characterisation of ni-coated carbon fibre-reinforced alumina ceramic matrix composites using electrophoretic deposi￾tion. Acta Materialia, 2001, 49, 1189–1197. 25. Mendelson, M. I., Average grain size in polycrystalline ceramics. J. Am. Ceram. Soc., 1969, 52, 443–446. 26. Whorlow, R. W., Rheological Techniques. Ellis Horwood, Lon￾don, 1992. 942 C. Kaya et al. / Journal of the European Ceramic Society 23 (2003) 935–942