Effects of microstructure on flexural strength of biomorphic C/SiC composites
Biomorphic C/SiC composites were fabricated from different kinds of wood by liquid silicon infiltration (LSI) following a two-step process. In the first-step, the wood is converted into carbon preforms by pyrolysis in a nitrogen atmosphere. The carbon preforms are then infiltrated by silicon melt at 1,560 degrees C under vacuum to fabricate C/SiC composites. The mechanical properties of the C/SiC composites were characterized by flexural tests at ambient temperature, 1,000, and 1,300 degrees C, and the relationship between mechanical properties and microstructure was analyzed. The flexural strength of the biomorphic composites was strongly dependent on the properties of the carbon preforms and the degree of silicon infiltration. The flexural strength increased with increasing SiC content and bulk density of composite, and with decreasing porosity in the C/SiC composite. An analysis of fractographs of fractured C/SiC composites showed a cleavage type fracture, indicating brittle fracture behavior.
- Publisher
- SPRINGER
- Issue Date
- 2008-06
- Language
- English
- Article Type
- Article
- Keywords
SILICON-CARBIDE CERAMICS; MECHANICAL-PROPERTIES; WOOD PRECURSORS; LIQUID SILICON; SIC CERAMICS; INFILTRATION; CARBON
- Citation
INTERNATIONAL JOURNAL OF FRACTURE, v.151, pp.233 - 245
- ISSN
- 0376-9429
- Appears in Collection
- MS-Journal Papers(저널논문)
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