Reaction front propagation in nonadiabatic exothermic reaction flow systems

Exothermic heterogeneous noncatalytic reactions of the type solid-solid and solid-gas can be efficiently used to produce new type of materials. The idea of the process is based on the selfpropagating reaction waves in the reactant mixture. Modeling of the process is suggested. comparison of experime

## Abstract Compressed mixtures of iron and barium peroxide or iron and potassium dichromate are examples of systems capable of undergoing self‐propagating incandescent reaction when ignited. It has been found that in both of these systems a non‐incandescent reaction, called the pre‐ignition reacti

Traveling polymerization fronts in unstirred solutions of methylmethacrylate, methacrylic acid, or acrylamide with some free radicals initiators (through thermal decomposition) have been observed experimentally. A local heating of the initial reactant mixture, under suitable conditions, leads to a r

It is reported and explained that the front-like reaction sustains, and its velocity is enhanced in frozen phase in the chlorite-thiosulphate system.

## Abstract Measurements have been made of the linear rate of the self‐propagating reaction and of the heat of this reaction in compressed binary solid mixtures of an oxidizing and a reducing agent. The thermochemical results have been used to draw conclusions about the chemistry of the reactions i