Fabrication, properties, and modelling of engineering ceramics reinforced with nanoparticles of silicon carbide

R. W. Davidge, R. J. Brook, F. Gambier, M. Poorteman, A. Leriche, D. O'Sullivan, S. Hampshire, T. Kennedy

Research output: Contribution to journalArticlepeer-review

Abstract

The present paper, prepared by Professor R. W. Davidge, briefly summarises the results obtained from a multinational project aimed at assessing naiwcoinposite ceramics reinforced with fine ( ~200 nm) particles of SiC. Various fabrication procedures were developed, e.g. by attritor milling in a water medium, followed by freeze drying and hot pressing. Matrixes were alumina, silicon nitride, mullite, and cordierite. Although modest improvements in properties were obtained for all systems, the most interesting effects were observed for alumina. For a given grain size, strength was increased by ~70% and toughness by ~10% in material with 5 vol.-%SiC, and for the range studied was relatively independent of nanophase content and particle size ( 10-400 nm). Based on microscopy observations and estimates of the Al203/SiC boundary fracture energy, it is postulated that a key feature of the naiwcoinposite effect is associated with a strongly increasing R curve behaviour over a small number of grain dimensionS. The consequence is that fracture is predominantly transcrystalline, as opposed to intercrystallinefor pure material. This gives the nanocomposite a significantly improved wear resistance. The material also showed good strength retention at high temperatures in corrosive atmospheres, and a considerably reduced creep rate.

Original languageEnglish
Pages (from-to)121-127
Number of pages7
JournalBritish Ceramic Transactions
Volume96
Issue number3
Publication statusPublished - 1997

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