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Combustion, Explosion and Shock Waves

2020 year, number 2

Prospects of usinsg Boron Powders as Fuel. II. Influence of Aluminum and Magnesium Additives and their Compounds on the Thermal Behavior of Boron Oxide

A. N. Pivkina, D. B. Meerov, K. A. Monogarov, Yu. V. Frolov, N. V. Murav'ev
Semenov Institute of Chemical Physics, Russian Academy of Sciences, Moscow, 119991 Russia
Keywords: частицы бора, оксид бора, испарение, термическая стабильность, термический анализ, boron particles, boron oxide, evaporation, thermal stability, thermal analysis

Abstract

Physicochemical changes occurring in an oxide shell of boron particles during heating are extremely important for the oxidation and combustion of boron, including those in solid propellant compositions. The Al2O3, MgO, MgF2, Al, and Mg impurities were experimentally discovered in an oxide layer on boron particles obtained by various methods. The goal of this work is to determine the effect of these impurities on the thermal behavior of boron oxide, with particular attention paid to evaporation of B2O3. The temperature and thermal effects of reactions between the components are thermoanalytically determined, and the processes of dehydration, melting, and evaporation of boron oxide are analyzed in detail. The enthalpy of evaporation of boron oxide, starting at a temperature above 1 300oC is experimentally determined, and is equal to 347 ± 3 kJ/mol. An interaction is observed between magnesium fluoride and boron oxide at a temperature of about 1 000oC with a mass loss corresponding to the content of magnesium fluoride and the formation of gas-phase boron fluoride. It is established that boron dissolved in oxide has virtually no effect on the evaporation of the boron oxide melt, while the addition of Al2O3 or MgO significantly increases its thermal stability. Based on the analysis of the results obtained, an assumption is made about the effect of impurities on boron activity in the processes of boron ignition and combustion.