Combustion synthesis and structure formation in a model Cr-CrO3 self-propagating high-temperature synthesis system

The combustion synthesis (self-propagating high-temperature synthesis, SHS) of a model Cr-CrO3 system is studied both experimentally and theoretically. The system is chemically simple, i.e. it is composed of only two elements, and convenient for combustion and phase formation studies. A new combusti...

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Veröffentlicht in:	Journal of materials science 1997-04, Vol.32 (7), p.1915-1924
Hauptverfasser:	YUKHVID, V. I, MAKLAKOV, S. V, ZHIRKOV, P. V, GORSHKOV, V. A, TIMOKHIN, N. I, DOVZHENKO, A. Y
Format:	Artikel
Sprache:	eng
Schlagworte:	Combustion synthesis High temperature Materials science Mathematical models Organic chemistry Oxidation Qualitative analysis Self propagating high temperature synthesis Vapor phases
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container_title	Journal of materials science
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creator	YUKHVID, V. I MAKLAKOV, S. V ZHIRKOV, P. V GORSHKOV, V. A TIMOKHIN, N. I DOVZHENKO, A. Y
description	The combustion synthesis (self-propagating high-temperature synthesis, SHS) of a model Cr-CrO3 system is studied both experimentally and theoretically. The system is chemically simple, i.e. it is composed of only two elements, and convenient for combustion and phase formation studies. A new combustion model for a “metal-metal oxide” system and a mathematical model of phase and structure formation are developed. A number of dependencies are determined in the experiments and are described in the combustion model. It is shown that the leading combustion stage is the gas phase oxidation reaction. Different types of microstructures formed from homogeneous melt are revealed. A qualitative agreement between experimental data, theoretical analysis and calculation results is obtained.
doi_str_mv	10.1023/A:1018525411478
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subjects	Combustion synthesis High temperature Materials science Mathematical models Organic chemistry Oxidation Qualitative analysis Self propagating high temperature synthesis Vapor phases
title	Combustion synthesis and structure formation in a model Cr-CrO3 self-propagating high-temperature synthesis system
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