Radiation‐induced polymerization of 1,2‐cyclohexene oxide in the plastic crystalline state

Abstract

AbstractRadiation‐induced solid state polymerization of 1,2‐cyclohexene oxide has been investigated. By the differential thermal analysis and x‐ray diffraction analysis, it was found that this compound has a phase transition point at −81°C and behaves as a plastic crystal in the temperature range from −81°C to −36°C (melting point). The in‐source polymerization proceeded not only in the plastic crystalline state but also in the ordinary crystalline state at temperatures below the phase transition point. The overall rate of polymerization and the rate of chain transfer to monomer in the plastic crystalline state were larger than those in the ordinary crystalline state by a factor of about forty, but the kinetic mechanisms were identical, i.e., the termination mechanisms were unimolecular in both solid states. In contrast, the kinetic mechanisms in the plastic crystalline state and in the liquid state were different. From these observations, the effects of molecular motion and molecular arrangement on the polymerizations of 1,2‐cyclohexene oxide in the three phases were discussed.