The effect of heat-treatment on the performance of sub-micron SiCp-reinforced α-β sialon composites: I. Preparation of agglomerate-free starting powders

Q. Liu; L. Gao; D. S. Yan; H. Mandal; D. P. Thompson

doi:10.1016/S0955-2219(96)00100-8

The effect of heat-treatment on the performance of sub-micron SiC_p-reinforced α-β sialon composites: I. Preparation of agglomerate-free starting powders

Q. Liu^*, L. Gao, D. S. Yan, H. Mandal, D. P. Thompson

^*Corresponding author for this work

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

11 Citations (Scopus)

Abstract

In order to prepare good-quality, dense, SiC_p-reinforced α-β sialon composites by hot-pressing, a technique was developed to prevent agglomeration of the SiC grains during powder processing. For this purpose, the surfaces of the SiC particles were selectively covered with long organic molecular chains by soaking in a solution of polyethylene glycol in isopropanol; the resulting powder not only resisted re-agglomeration, but was also readily dispersible within the sialon matrix. Infra-red absorption was used to demonstrate that the PEG-modified SiC grains had been successfully coated with OH groups. The dispersion role of PEG is mainly influenced by the molecular weight of the surfactant, the surfactant concentration, the pH value of the suspension and the soaking time of the SiC powder in the solution.

Original language	English
Pages (from-to)	581-585
Number of pages	5
Journal	Journal of the European Ceramic Society
Volume	17
Issue number	4
DOIs	https://doi.org/10.1016/S0955-2219(96)00100-8
Publication status	Published - Feb 1997
Externally published	Yes

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title = "The effect of heat-treatment on the performance of sub-micron SiCp-reinforced α-β sialon composites: I. Preparation of agglomerate-free starting powders",

abstract = "In order to prepare good-quality, dense, SiCp-reinforced α-β sialon composites by hot-pressing, a technique was developed to prevent agglomeration of the SiC grains during powder processing. For this purpose, the surfaces of the SiC particles were selectively covered with long organic molecular chains by soaking in a solution of polyethylene glycol in isopropanol; the resulting powder not only resisted re-agglomeration, but was also readily dispersible within the sialon matrix. Infra-red absorption was used to demonstrate that the PEG-modified SiC grains had been successfully coated with OH groups. The dispersion role of PEG is mainly influenced by the molecular weight of the surfactant, the surfactant concentration, the pH value of the suspension and the soaking time of the SiC powder in the solution.",

author = "Q. Liu and L. Gao and Yan, {D. S.} and H. Mandal and Thompson, {D. P.}",

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AU - Gao, L.

AU - Yan, D. S.

AU - Mandal, H.

AU - Thompson, D. P.

PY - 1997/2

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N2 - In order to prepare good-quality, dense, SiCp-reinforced α-β sialon composites by hot-pressing, a technique was developed to prevent agglomeration of the SiC grains during powder processing. For this purpose, the surfaces of the SiC particles were selectively covered with long organic molecular chains by soaking in a solution of polyethylene glycol in isopropanol; the resulting powder not only resisted re-agglomeration, but was also readily dispersible within the sialon matrix. Infra-red absorption was used to demonstrate that the PEG-modified SiC grains had been successfully coated with OH groups. The dispersion role of PEG is mainly influenced by the molecular weight of the surfactant, the surfactant concentration, the pH value of the suspension and the soaking time of the SiC powder in the solution.

AB - In order to prepare good-quality, dense, SiCp-reinforced α-β sialon composites by hot-pressing, a technique was developed to prevent agglomeration of the SiC grains during powder processing. For this purpose, the surfaces of the SiC particles were selectively covered with long organic molecular chains by soaking in a solution of polyethylene glycol in isopropanol; the resulting powder not only resisted re-agglomeration, but was also readily dispersible within the sialon matrix. Infra-red absorption was used to demonstrate that the PEG-modified SiC grains had been successfully coated with OH groups. The dispersion role of PEG is mainly influenced by the molecular weight of the surfactant, the surfactant concentration, the pH value of the suspension and the soaking time of the SiC powder in the solution.

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The effect of heat-treatment on the performance of sub-micron SiC_p-reinforced α-β sialon composites: I. Preparation of agglomerate-free starting powders

Abstract

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