Si//3N//4 FORMATION IN THE CARBOTHERMAL REDUCTION PROCESS OF A MAGADIITE-POLYACRYLONITRILE INTERCALATION COMPOUND.

Yoshiyuki Sugahara; Yasuyuki Nomizu; Kazuyuki Kuroda; Chuzo Kato

Si//3N//4 FORMATION IN THE CARBOTHERMAL REDUCTION PROCESS OF A MAGADIITE-POLYACRYLONITRILE INTERCALATION COMPOUND.

Yoshiyuki Sugahara^*, Yasuyuki Nomizu, Kazuyuki Kuroda, Chuzo Kato

^*Corresponding author for this work

School of Advanced Science and Engineering

Research output: Contribution to journal › Article › peer-review

10 Citations (Scopus)

Abstract

Silicon nitride was formed from a magadiite (layered polysilicate)-polyacrylonitrile (PAN) intercalation compound through a novel process of carbothermal reduction. SiO//2 from magadiite was reduced above 1400 degree C without the formation of any crystalline oxides. On heating above 1400 degree C, both alpha - and beta -Si//3N//4 were detected, and the additional formation of alpha - and beta -SiC was observed by heating at 1600 degree C. On the other hand, the reactions for the synthesis from a magadiite-carbon mixture involved the formation of cristobalite as well as alpha - and beta -Si//3N//4, and beta -SiC. In addition, it was also indicated that the mixture was less reactive for the formation of Si//3N//4.

Original language	English
Pages (from-to)	124-129
Number of pages	6
Journal	Yogyo Kyokai Shi/Journal of the Ceramic Society of Japan
Volume	95
Issue number	1
Publication status	Published - 1987 Jan 1

ASJC Scopus subject areas

Engineering(all)

Cite this

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title = "Si//3N//4 FORMATION IN THE CARBOTHERMAL REDUCTION PROCESS OF A MAGADIITE-POLYACRYLONITRILE INTERCALATION COMPOUND.",

abstract = "Silicon nitride was formed from a magadiite (layered polysilicate)-polyacrylonitrile (PAN) intercalation compound through a novel process of carbothermal reduction. SiO//2 from magadiite was reduced above 1400 degree C without the formation of any crystalline oxides. On heating above 1400 degree C, both alpha - and beta -Si//3N//4 were detected, and the additional formation of alpha - and beta -SiC was observed by heating at 1600 degree C. On the other hand, the reactions for the synthesis from a magadiite-carbon mixture involved the formation of cristobalite as well as alpha - and beta -Si//3N//4, and beta -SiC. In addition, it was also indicated that the mixture was less reactive for the formation of Si//3N//4.",

author = "Yoshiyuki Sugahara and Yasuyuki Nomizu and Kazuyuki Kuroda and Chuzo Kato",

year = "1987",

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T1 - Si//3N//4 FORMATION IN THE CARBOTHERMAL REDUCTION PROCESS OF A MAGADIITE-POLYACRYLONITRILE INTERCALATION COMPOUND.

AU - Sugahara, Yoshiyuki

AU - Nomizu, Yasuyuki

AU - Kuroda, Kazuyuki

AU - Kato, Chuzo

PY - 1987/1/1

Y1 - 1987/1/1

N2 - Silicon nitride was formed from a magadiite (layered polysilicate)-polyacrylonitrile (PAN) intercalation compound through a novel process of carbothermal reduction. SiO//2 from magadiite was reduced above 1400 degree C without the formation of any crystalline oxides. On heating above 1400 degree C, both alpha - and beta -Si//3N//4 were detected, and the additional formation of alpha - and beta -SiC was observed by heating at 1600 degree C. On the other hand, the reactions for the synthesis from a magadiite-carbon mixture involved the formation of cristobalite as well as alpha - and beta -Si//3N//4, and beta -SiC. In addition, it was also indicated that the mixture was less reactive for the formation of Si//3N//4.

AB - Silicon nitride was formed from a magadiite (layered polysilicate)-polyacrylonitrile (PAN) intercalation compound through a novel process of carbothermal reduction. SiO//2 from magadiite was reduced above 1400 degree C without the formation of any crystalline oxides. On heating above 1400 degree C, both alpha - and beta -Si//3N//4 were detected, and the additional formation of alpha - and beta -SiC was observed by heating at 1600 degree C. On the other hand, the reactions for the synthesis from a magadiite-carbon mixture involved the formation of cristobalite as well as alpha - and beta -Si//3N//4, and beta -SiC. In addition, it was also indicated that the mixture was less reactive for the formation of Si//3N//4.

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Si//3N//4 FORMATION IN THE CARBOTHERMAL REDUCTION PROCESS OF A MAGADIITE-POLYACRYLONITRILE INTERCALATION COMPOUND.

Abstract

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