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Journal of Asian Ceramic Societies Volume 2, 2014 - Issue 4
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Original Article

Compressive deformation of liquid phase-sintered porous silicon carbide ceramicsFootnote

Taro ShimonosonoDepartment of Chemistry, Biotechnology, and Chemical Engineering, Kagoshima University1-21-40 KorimotoKagoshima890-0065Japan
,
Syota IkeyamaDepartment of Chemistry, Biotechnology, and Chemical Engineering, Kagoshima University1-21-40 KorimotoKagoshima890-0065Japan
,
Yoshihiro HirataDepartment of Chemistry, Biotechnology, and Chemical Engineering, Kagoshima University1-21-40 KorimotoKagoshima890-0065JapanCorrespondence[email protected]
&
Soichiro SameshimaDepartment of Chemistry, Biotechnology, and Chemical Engineering, Kagoshima University1-21-40 KorimotoKagoshima890-0065Japan
Pages 422-428 | Received 11 Aug 2014, Accepted 10 Sep 2014, Published online: 20 Apr 2018
 
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Abstract

Porous silicon carbide ceramics were fabricated by liquid phase sintering with 1 wt% Al2O3–1 wt% Y2O3 additives during hot-pressing at 1400–1900 °C. The longitudinal strain at compressive fracture increased at a higher porosity and was larger than the lateral strain. The compressive Young's modulus and the strain at fracture depended on the measured direction, and increased with the decreased specific surface area due to the formation of grain boundary. However, the compressive strength and the fracture energy were not sensitive to the measured direction. The compressive strength of a porous SiC compact increased with increasing grain boundary area. According to the theoretical modeling of the strength–grain boundary area relation, it is interpreted that the grain boundary of a porous SiC compact is fractured by shear deformation rather than by compressive deformation.

Notes

Peer review under responsibility of The Ceramic Society of Japan and the Korean Ceramic Society.

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