Radiothermoluminescence and thermomechanical spectrometry study of gamma-irradiated vinylidene fluoride–chlorotrifluoroethylene copolymer

Five topological units: low- and high-temperature amorphous blocks and three crystalline modifications that act as branching points in the networks of both amorphous blocks, have been detected for the first time in the pseudo-network structure of the unirradiated fluoroelastomer SKF-32 by means of thermomechanical spectrometry (TMS). When the rubber is γ-irradiated to a dose of 10 kGy, the structures of the intermediate and high-melting crystalline fractions degrade and their amorphized chains along with interjunction chains of both amorphous blocks assimilate into one amorphous block, and the latter is the block of the chemically crosslinked rubber already with a topologically diblock semicrystalline structure. A radiothermoluminescence (RTL) curve of the irradiated rubber shows four relaxation transitions (emissions peaks), with only the transition at–25°C almost coinciding with the glass transition temperature observed in thermomechanical analysis curve of the crosslinked rubber.