Two‐stage irradiation study on propagation and termination in the γ‐radiation‐induced polymerization of ethylene in liquid carbon dioxide

Abstract

AbstractThe propagation and termination reaction in the γ‐radiation‐induced ethylene polymerization in liquid carbon dioxide were investigated by a two‐stage irradiation. After irradiation at high dose rate, the polymerization occured at a considerable rate under the extremely low dose rate without initiation. The absolute propagation rate was determined in the second stage to be proportional to the square of ethylene fugacity and depended slightly on dose rate. The apparent activation energy for the propagation reaction is −9 kcal./mole. From these observations which are the same as those in bulk polymerization, it is concluded that carbon dioxide acts as a diluent of ethylene monomer in the propagation reaction. Also, carbon dioxide was shown to be inactive to the growing radicals without irradiation, but oxygen which is produced by the radiolysis of carbon dioxide at high dose terminates the growing radicals with formation of carbonyl in the polymer.