Abstract
The polymerization and oxidation of acetylene have been investigated at temperatures from 1800°—2700°K and 950°—1100°K, respectively, by the technique of time-of-flight mass spectrometry in reflected shock waves. In the absence of oxygen, a simple bimolecular reaction produces a dimer, probably vinylacetylene, and higher polymers, which appear to reach ``equilibrium'' with the acetylene. A sharp drop in the concentration of these polymers is observed at a later time, which is correlated with the formation of carbon after an induction period. In the presence of oxygen, a dimer, probably diacetylene, is formed simultaneously with the formation of CO and H2O, after an induction period. This suggests that it is a product of the branching chain reaction, a specific mechanism for which is proposed.
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