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Combustion, Explosion and Shock Waves

2024 year, number 1

Synthesis of Oxynitride Composites during Combustion of a Ferrosilicon-Natural Mineral-Aluminum Mixture in Nitrogen

O. G. Kryukova, A. A. Nevmyvaka, A. A. Akulinkin, T. V. Tatarinova
Tomsk Scientific Center, Siberian Branch, Russian Academy of Sciences, Tomsk, Russia
Keywords: self-propagating high-temperature synthesis, ferrosilicon, zircon, ilmenite, shungite, aluminum, sialon

Abstract

Targeted synthesis of oxynitride composites is implemented by means of organizing coupled processes. Interaction of ferrosilicon with nitrogen in the combustion regime is considered as the main (inducing) process. The phase composition of the products of the coupled processes is determined by the chemical and phase compositions of the components added to ferrosilicon before performing self-propagating high-temperature synthesis. The influence of the basic products of the synthesis on the burning rate, fraction of nitrogen, phase composition, and morphology of synthesis products is considered. Chemical stages of ferrosilicon interaction with additives of natural minerals (zircon, ilmenite, and shungite) and aluminum in a nitrogen medium are demonstrated. The phase composition is determined by chemical transformations in the combustion wave. It is found that addition of aluminum leads to reduction or elimination of the Si2N2O phase in synthesis products with an increase in the aluminum fraction and obtaining composites based on the Si3N4 (SiAlON) solid solution. The microstructure of combustion products is presented by aggregates (5-10 μm) composed of small faceted crystals, shapeless structures, and crystal flakes. Oxynitride composites with an open porosity value of 51.0÷68.8% are obtained.