Fabrication of porous SiC ceramics using glass beads

Naomichi Miyagawa; Nobuhiro Shinohara; Hirotsugu Takizawa; Tadashi Endo

doi:10.2497/jjspm.43.1461

Fabrication of porous SiC ceramics using glass beads

Naomichi Miyagawa, Nobuhiro Shinohara, Hirotsugu Takizawa, Tadashi Endo

研究成果: Article › 査読

抄録

Porous SiC ceramics have been fabricated by using SiO₂-Al₂O₃ based glass beads. SiC powder with the average grain size of 0.6 μm was mixed with 5-20 wt.% glass beads by dry mixing. The average particle size of the glass beads was about 45 μm. The mixed powder was compressed into plate form and sintered at 1970°C for 2 hours in Ar atmosphere. The resultant materials had porosities ranging from 25 to 50%. Large spherical pores connecting through micro-sized open pores were observed in their microstructures. It has been concluded that the occurrence of open pores was originated in the formation of gas phase through the reaction, SiC+2SiO₂→3SiO(g)+CO(g), in Ar atmosphere. The alumina element in the glass beads contributed to the densification of SiC matrix through the formation of liquid phase and as a result, the materials had high bending strength in spite of their high porosity.

本文言語	English
ページ（範囲）	1461-1465
ページ数	5
ジャーナル	Funtai Oyobi Fummatsu Yakin/Journal of the Japan Society of Powder and Powder Metallurgy
巻	43
号	12
DOI	https://doi.org/10.2497/jjspm.43.1461
出版ステータス	Published - 1996
外部発表	はい

ASJC Scopus subject areas

機械工学
産業および生産工学
金属および合金
材料化学

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10.2497/jjspm.43.1461

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title = "Fabrication of porous SiC ceramics using glass beads",

abstract = "Porous SiC ceramics have been fabricated by using SiO2-Al2O3 based glass beads. SiC powder with the average grain size of 0.6 μm was mixed with 5-20 wt.% glass beads by dry mixing. The average particle size of the glass beads was about 45 μm. The mixed powder was compressed into plate form and sintered at 1970°C for 2 hours in Ar atmosphere. The resultant materials had porosities ranging from 25 to 50%. Large spherical pores connecting through micro-sized open pores were observed in their microstructures. It has been concluded that the occurrence of open pores was originated in the formation of gas phase through the reaction, SiC+2SiO2→3SiO(g)+CO(g), in Ar atmosphere. The alumina element in the glass beads contributed to the densification of SiC matrix through the formation of liquid phase and as a result, the materials had high bending strength in spite of their high porosity.",

author = "Naomichi Miyagawa and Nobuhiro Shinohara and Hirotsugu Takizawa and Tadashi Endo",

year = "1996",

doi = "10.2497/jjspm.43.1461",

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AU - Miyagawa, Naomichi

AU - Shinohara, Nobuhiro

AU - Takizawa, Hirotsugu

AU - Endo, Tadashi

PY - 1996

Y1 - 1996

N2 - Porous SiC ceramics have been fabricated by using SiO2-Al2O3 based glass beads. SiC powder with the average grain size of 0.6 μm was mixed with 5-20 wt.% glass beads by dry mixing. The average particle size of the glass beads was about 45 μm. The mixed powder was compressed into plate form and sintered at 1970°C for 2 hours in Ar atmosphere. The resultant materials had porosities ranging from 25 to 50%. Large spherical pores connecting through micro-sized open pores were observed in their microstructures. It has been concluded that the occurrence of open pores was originated in the formation of gas phase through the reaction, SiC+2SiO2→3SiO(g)+CO(g), in Ar atmosphere. The alumina element in the glass beads contributed to the densification of SiC matrix through the formation of liquid phase and as a result, the materials had high bending strength in spite of their high porosity.

AB - Porous SiC ceramics have been fabricated by using SiO2-Al2O3 based glass beads. SiC powder with the average grain size of 0.6 μm was mixed with 5-20 wt.% glass beads by dry mixing. The average particle size of the glass beads was about 45 μm. The mixed powder was compressed into plate form and sintered at 1970°C for 2 hours in Ar atmosphere. The resultant materials had porosities ranging from 25 to 50%. Large spherical pores connecting through micro-sized open pores were observed in their microstructures. It has been concluded that the occurrence of open pores was originated in the formation of gas phase through the reaction, SiC+2SiO2→3SiO(g)+CO(g), in Ar atmosphere. The alumina element in the glass beads contributed to the densification of SiC matrix through the formation of liquid phase and as a result, the materials had high bending strength in spite of their high porosity.

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Fabrication of porous SiC ceramics using glass beads

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