Abstract
The influence of the thermophysical characteristics of an inert interlayer substance and its thickness and the influence of heat elimination to the environment on combustion wave propagation through an inert obstacle were investigated. An infinite specimen of substance capable of exothermal chemical reaction, into which an inert substance interlayer had been inserted, was considered. A stationary combustion front was propagated toward the interlayer. The process of nonstationary combustion front propagation through the inert obstacle under the assumption of averaging the temperature over the thickness and of dependence of the reaction rate on the temperature according to the Arrhenius law was modeled by a system of differential equations.
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