Ultrafine alumina coated silicon carbide particles for alumina-silicon carbide nanocomposites
- Regional Research Lab., Trivandrum (India); and others
Aluminum oxide, toughened by fine and uniform dispersion of silicon carbide particles has been found to possess interesting high temperature properties of high toughness and strength. Recent reports suggest that the finer the silicon carbide size, the better would be the fracture toughness. By addition of as few as 5 vol% submicron SiC particles strengthened Al{sub 2}O{sub 3} from 350 MPa to 1 GPa, with toughness as high as 4.7 Mpa m{sup {1/2}}. The mechanism of such high extent of fracture toughness has been investigated to be due to crack deflection and microcracking introduced by thermal expansion mismatch between particles and matrix grains, although the real contributions from the silicon carbide nanoparticles are still under investigation. In all these cases the primary requirement for most effective composite is the fine, uniform size of the particles and their homogeneous dispersion in the alumina matrix. Usual methods adopted for the preparation of composites such as physical mixing of alumina and silicon carbide particles often result in localized agglomerations and inhomogeneity making the composite inferior in properties.
- OSTI ID:
- 535627
- Report Number(s):
- CONF-941199-; TRN: 97:003395-0014
- Resource Relation:
- Conference: Joint American Ceramic Society (ACS) Electronics Division/ISHM Fall meeting, Boston, MA (United States), 15-17 Nov 1994; Other Information: PBD: 1996; Related Information: Is Part Of Ceramic transactions: Hybrid microelectronic materials. Volume 68; Nair, K.M.; Shukla, V.N. [eds.]; PB: 301 p.
- Country of Publication:
- United States
- Language:
- English
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