Abstract
A theoretical study of combustion in the manometric bomb of the constant volume of charge, consisting of grains of high-energy material containing nanoscale aluminum powder, is presented. A comparison of an experimentally measured dependence of pressure growth in a manometric bomb with calculations on the thermodynamic model of burning of a hitch of high-energy material in a manometric bomb using an empirical law of the dependence of the rate of combustion on pressure and the conjugated model of nonstationary combustion. A numerical analysis of the effect of the additive of nanoscale aluminum powder in the composition of the high-energy material on the dynamics of burning charge in a pressure gauge bomb.
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