Abstract

Combustion of gasless SHS systems in conditions of uniaxial loading was mathematically modeled in approximation of viscous compressible liquid and numerically analyzed. Boundaries of the deformation zone were found to depend on the melting point of one of the reagents and on the volume fraction of refractory component in combustion product. Burning velocity, strain rate, and final product porosity were estimated as a function of applied load and green porosity. Outlined was the applicability range for our model to adequate description of deformation processes taking place during combustion of gasless SHS systems.

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