The preparation of β sialon from Kaolin by carbonitrothermic reduction

F. S. Cinar; J. C.T. Van Der Heijde; R. A. Terpstra; A. Tekin

doi:10.1515/HTMP.1996.15.1-2.97

The preparation of β sialon from Kaolin by carbonitrothermic reduction

F. S. Cinar^*, J. C.T. Van Der Heijde, R. A. Terpstra, A. Tekin

^*Corresponding author for this work

Department of Metallurgical and Materials Engineering

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

2 Citations (Scopus)

Abstract

The preparation of β-sialon from Turkish kaolin by carbothermic reduction under a nitrogen atmosphere has been described. The product of carbonitrothermic reduction at 1475-1500¶C comprises principally β-sialon and minor amounts of another phase in the SiAl-N-O system known as the 15R phase. The amount of each of these two phases strongly depends on reaction time. The colloidal stability behaviour of the ground carbothermal β-sialon in water was found to depend strongly on the pH. Slip casting of the β-sialon powder from the suspension followed by sintering at 1500 to 1600¶C resulted in compounds with densities ranging from 94 to 99% of the theoretical value. The particle size of the β-sialon influences the densification achieved during sintering. The use of yttria in amounts of 5 and 10% as an additive to β-sialon to obtain higher densities by sintering works well for relatively coarser powder.

Original language	English
Pages (from-to)	97-101
Number of pages	5
Journal	High Temperature Materials and Processes
Volume	15
Issue number	1-2
DOIs	https://doi.org/10.1515/HTMP.1996.15.1-2.97
Publication status	Published - 1996

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10.1515/HTMP.1996.15.1-2.97

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title = "The preparation of β sialon from Kaolin by carbonitrothermic reduction",

abstract = "The preparation of β-sialon from Turkish kaolin by carbothermic reduction under a nitrogen atmosphere has been described. The product of carbonitrothermic reduction at 1475-1500¶C comprises principally β-sialon and minor amounts of another phase in the SiAl-N-O system known as the 15R phase. The amount of each of these two phases strongly depends on reaction time. The colloidal stability behaviour of the ground carbothermal β-sialon in water was found to depend strongly on the pH. Slip casting of the β-sialon powder from the suspension followed by sintering at 1500 to 1600¶C resulted in compounds with densities ranging from 94 to 99\% of the theoretical value. The particle size of the β-sialon influences the densification achieved during sintering. The use of yttria in amounts of 5 and 10\% as an additive to β-sialon to obtain higher densities by sintering works well for relatively coarser powder.",

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AU - Cinar, F. S.

AU - Van Der Heijde, J. C.T.

AU - Terpstra, R. A.

AU - Tekin, A.

PY - 1996

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N2 - The preparation of β-sialon from Turkish kaolin by carbothermic reduction under a nitrogen atmosphere has been described. The product of carbonitrothermic reduction at 1475-1500¶C comprises principally β-sialon and minor amounts of another phase in the SiAl-N-O system known as the 15R phase. The amount of each of these two phases strongly depends on reaction time. The colloidal stability behaviour of the ground carbothermal β-sialon in water was found to depend strongly on the pH. Slip casting of the β-sialon powder from the suspension followed by sintering at 1500 to 1600¶C resulted in compounds with densities ranging from 94 to 99% of the theoretical value. The particle size of the β-sialon influences the densification achieved during sintering. The use of yttria in amounts of 5 and 10% as an additive to β-sialon to obtain higher densities by sintering works well for relatively coarser powder.

AB - The preparation of β-sialon from Turkish kaolin by carbothermic reduction under a nitrogen atmosphere has been described. The product of carbonitrothermic reduction at 1475-1500¶C comprises principally β-sialon and minor amounts of another phase in the SiAl-N-O system known as the 15R phase. The amount of each of these two phases strongly depends on reaction time. The colloidal stability behaviour of the ground carbothermal β-sialon in water was found to depend strongly on the pH. Slip casting of the β-sialon powder from the suspension followed by sintering at 1500 to 1600¶C resulted in compounds with densities ranging from 94 to 99% of the theoretical value. The particle size of the β-sialon influences the densification achieved during sintering. The use of yttria in amounts of 5 and 10% as an additive to β-sialon to obtain higher densities by sintering works well for relatively coarser powder.

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JO - High Temperature Materials and Processes

JF - High Temperature Materials and Processes

IS - 1-2

ER -

The preparation of β sialon from Kaolin by carbonitrothermic reduction

Abstract

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