Kinetics and mechanism of thermal oxidation of sialon ceramic powders

Kenneth J.D. MacKenzie; Carolyn M. Sheppard; Glen C. Barris; Ann M. Mills; Shiro Shimada; Hajime Kiyono

doi:10.1016/s0040-6031(98)00333-5

Kinetics and mechanism of thermal oxidation of sialon ceramic powders

Kenneth J.D. MacKenzie, Carolyn M. Sheppard, Glen C. Barris, Ann M. Mills, Shiro Shimada, Hajime Kiyono

研究成果: Article › 査読

34 被引用数 (Scopus)

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X-ray diffraction, solid state MAS NMR and isothermal thermogravimetry were used to study the oxidation mechanism and kinetics of pure X-phase and O′-sialon powders prepared by silicothermal synthesis. X-phase sialon (Si₁₂Al₁₈O₃₉N₈) begins to oxidise at above 940°C, forming amorphous silica and progressively losing nitrogen from the SiO₂N₂ groups to form mullite at 1200-1300°C. O′-sialon is more oxidation-resistant; although significant formation of amorphous silica occurs above 940°C, the crystalline products (silica and a small amount of mullite) appear above 1235°C. At 1400-1600°C, oxidation is progressively hindered by the formation of a protective fused silica surface layer containing octahedral Al. The oxidation kinetics can be described by a parabolic rate law, with temperature coefficients of reaction rate (E_a) of 250 and 454 kJ mol^-1 for X-phase and O′-sialon, respectively. The kinetic results are discussed in the context of previous sialon powder oxidation studies.

本文言語	English
ページ（範囲）	91-100
ページ数	10
ジャーナル	Thermochimica Acta
巻	318
号	1-2
DOI	https://doi.org/10.1016/s0040-6031(98)00333-5
出版ステータス	Published - 1998 9月 7
外部発表	はい

ASJC Scopus subject areas

器械工学
凝縮系物理学
物理化学および理論化学

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10.1016/s0040-6031(98)00333-5

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title = "Kinetics and mechanism of thermal oxidation of sialon ceramic powders",

abstract = "X-ray diffraction, solid state MAS NMR and isothermal thermogravimetry were used to study the oxidation mechanism and kinetics of pure X-phase and O′-sialon powders prepared by silicothermal synthesis. X-phase sialon (Si12Al18O39N8) begins to oxidise at above 940°C, forming amorphous silica and progressively losing nitrogen from the SiO2N2 groups to form mullite at 1200-1300°C. O′-sialon is more oxidation-resistant; although significant formation of amorphous silica occurs above 940°C, the crystalline products (silica and a small amount of mullite) appear above 1235°C. At 1400-1600°C, oxidation is progressively hindered by the formation of a protective fused silica surface layer containing octahedral Al. The oxidation kinetics can be described by a parabolic rate law, with temperature coefficients of reaction rate (Ea) of 250 and 454 kJ mol-1 for X-phase and O′-sialon, respectively. The kinetic results are discussed in the context of previous sialon powder oxidation studies.",

author = "MacKenzie, {Kenneth J.D.} and Sheppard, {Carolyn M.} and Barris, {Glen C.} and Mills, {Ann M.} and Shiro Shimada and Hajime Kiyono",

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AU - MacKenzie, Kenneth J.D.

AU - Sheppard, Carolyn M.

AU - Barris, Glen C.

AU - Mills, Ann M.

AU - Shimada, Shiro

AU - Kiyono, Hajime

PY - 1998/9/7

Y1 - 1998/9/7

N2 - X-ray diffraction, solid state MAS NMR and isothermal thermogravimetry were used to study the oxidation mechanism and kinetics of pure X-phase and O′-sialon powders prepared by silicothermal synthesis. X-phase sialon (Si12Al18O39N8) begins to oxidise at above 940°C, forming amorphous silica and progressively losing nitrogen from the SiO2N2 groups to form mullite at 1200-1300°C. O′-sialon is more oxidation-resistant; although significant formation of amorphous silica occurs above 940°C, the crystalline products (silica and a small amount of mullite) appear above 1235°C. At 1400-1600°C, oxidation is progressively hindered by the formation of a protective fused silica surface layer containing octahedral Al. The oxidation kinetics can be described by a parabolic rate law, with temperature coefficients of reaction rate (Ea) of 250 and 454 kJ mol-1 for X-phase and O′-sialon, respectively. The kinetic results are discussed in the context of previous sialon powder oxidation studies.

AB - X-ray diffraction, solid state MAS NMR and isothermal thermogravimetry were used to study the oxidation mechanism and kinetics of pure X-phase and O′-sialon powders prepared by silicothermal synthesis. X-phase sialon (Si12Al18O39N8) begins to oxidise at above 940°C, forming amorphous silica and progressively losing nitrogen from the SiO2N2 groups to form mullite at 1200-1300°C. O′-sialon is more oxidation-resistant; although significant formation of amorphous silica occurs above 940°C, the crystalline products (silica and a small amount of mullite) appear above 1235°C. At 1400-1600°C, oxidation is progressively hindered by the formation of a protective fused silica surface layer containing octahedral Al. The oxidation kinetics can be described by a parabolic rate law, with temperature coefficients of reaction rate (Ea) of 250 and 454 kJ mol-1 for X-phase and O′-sialon, respectively. The kinetic results are discussed in the context of previous sialon powder oxidation studies.

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Kinetics and mechanism of thermal oxidation of sialon ceramic powders

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