INTERFACE, MATRIX AND FIBER MICROSTRUCTURE IN SIC-REINFORCED GLASS-CERAMIC COMPOSITES
UNSPECIFIED. (1990) INTERFACE, MATRIX AND FIBER MICROSTRUCTURE IN SIC-REINFORCED GLASS-CERAMIC COMPOSITES. INSTITUTE OF PHYSICS CONFERENCE SERIES (111). pp. 185-196. ISSN 0951-3248Full text not available from this repository.
Matrix crystallisation and the mechanism and kinetices of 'C' rich interface development have been studied for various silicate compositions and pressing temperatures. In some systems the hot pressing cycle necessary for densification and critical interface development is incompatible with optimum matrix microstructure. The development of refractory composites, currently limited by the fibre stability in processing or in service conditions, has been explored using sol-gel stoichiometric silicate glasses and diphasic eutectic glasses (conventially melted) followed by crystallisation of low thermal expansion phases from the MAS and BAS systems.
|Item Type:||Journal Article|
|Subjects:||Q Science > QC Physics|
|Journal or Publication Title:||INSTITUTE OF PHYSICS CONFERENCE SERIES|
|Publisher:||IOP PUBLISHING LTD|
|Number of Pages:||12|
|Page Range:||pp. 185-196|
Actions (login required)