Mechanochemical-activation-assisted combustion synthesis of α-Si 3N4

Hai Bo Jin; Yun Yang; Yi Xiang Chen; Zhi Ming Lin; Jiang Tao Li

doi:10.1111/j.1551-2916.2005.00809.x

Mechanochemical-activation-assisted combustion synthesis of α-Si ₃N₄

Hai Bo Jin, Yun Yang, Yi Xiang Chen, Zhi Ming Lin, Jiang Tao Li^*

^*Corresponding author for this work

School of Material Science and Engineering

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

50 Citations (Scopus)

Abstract

Combustion synthesis (CS) of α-silicon nitride (Si₃N ₄) powders was accomplished at a nitrogen pressure lower than 3 MPa. The combination of mechanical activation and chemical stimulation was effective in enhancing the reactivity of Si powder reactants, which was responsible for the reduction of the minimum nitrogen pressure normally required for the CS of Si₃N₄. This breakthrough indicates that nitriding combustion of silicon in pressurized nitrogen could be promoted by activating the solid reactants instead of by increasing the nitrogen pressure. The phase content of α-Si₃N₄ in the as-synthesized product is over 90 wt%. Scanning electronic microscopy observation showed that the combustion-synthesized Si₃N₄ powders are submicron-sized particles with spherical morphologies.

Original language	English
Pages (from-to)	1099-1102
Number of pages	4
Journal	Journal of the American Ceramic Society
Volume	89
Issue number	3
DOIs	https://doi.org/10.1111/j.1551-2916.2005.00809.x
Publication status	Published - Mar 2006

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title = "Mechanochemical-activation-assisted combustion synthesis of α-Si 3N4",

abstract = "Combustion synthesis (CS) of α-silicon nitride (Si3N 4) powders was accomplished at a nitrogen pressure lower than 3 MPa. The combination of mechanical activation and chemical stimulation was effective in enhancing the reactivity of Si powder reactants, which was responsible for the reduction of the minimum nitrogen pressure normally required for the CS of Si3N4. This breakthrough indicates that nitriding combustion of silicon in pressurized nitrogen could be promoted by activating the solid reactants instead of by increasing the nitrogen pressure. The phase content of α-Si3N4 in the as-synthesized product is over 90 wt%. Scanning electronic microscopy observation showed that the combustion-synthesized Si3N4 powders are submicron-sized particles with spherical morphologies.",

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AU - Jin, Hai Bo

AU - Yang, Yun

AU - Chen, Yi Xiang

AU - Lin, Zhi Ming

AU - Li, Jiang Tao

PY - 2006/3

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N2 - Combustion synthesis (CS) of α-silicon nitride (Si3N 4) powders was accomplished at a nitrogen pressure lower than 3 MPa. The combination of mechanical activation and chemical stimulation was effective in enhancing the reactivity of Si powder reactants, which was responsible for the reduction of the minimum nitrogen pressure normally required for the CS of Si3N4. This breakthrough indicates that nitriding combustion of silicon in pressurized nitrogen could be promoted by activating the solid reactants instead of by increasing the nitrogen pressure. The phase content of α-Si3N4 in the as-synthesized product is over 90 wt%. Scanning electronic microscopy observation showed that the combustion-synthesized Si3N4 powders are submicron-sized particles with spherical morphologies.

AB - Combustion synthesis (CS) of α-silicon nitride (Si3N 4) powders was accomplished at a nitrogen pressure lower than 3 MPa. The combination of mechanical activation and chemical stimulation was effective in enhancing the reactivity of Si powder reactants, which was responsible for the reduction of the minimum nitrogen pressure normally required for the CS of Si3N4. This breakthrough indicates that nitriding combustion of silicon in pressurized nitrogen could be promoted by activating the solid reactants instead of by increasing the nitrogen pressure. The phase content of α-Si3N4 in the as-synthesized product is over 90 wt%. Scanning electronic microscopy observation showed that the combustion-synthesized Si3N4 powders are submicron-sized particles with spherical morphologies.

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JF - Journal of the American Ceramic Society

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Mechanochemical-activation-assisted combustion synthesis of α-Si ₃N₄

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