The monomer conversion dependence of the formation of the various types of defect
structures in radical suspension polymerization of vinyl chloride was examined via both 1H and 13C NMR
spectrometry. The rate coefficients for model propagation and intra- and intermolecular hydrogen
abstraction reactions were obtained via high-level ab initio molecular orbital calculations. An enormous
increase in the formation of both branched and internal unsaturated structures was observed at
conversions above 85%, and this is mirrored by a sudden decrease in stability of the resulting PVC polymer.
Above this threshold-conversion, the monomer is depleted from the polymer-rich phase, and the
propagation rate is thus substantially reduced, thereby allowing the chain-transfer processes to compete
more effectively. In contrast to the other defects, the chloroallylic end groups were found to decrease at
high conversions. On the basis of the theoretical and experimental data obtained in this study, this decrease
was attributed to copolymerization and abstraction reactions that are expected to be favored at high
monomer conversions. Finally, a surprising increase in the concentration of the methyl branches was
reported. Although a definitive explanation for this behavior is yet to be obtained, the involvement of
transfer reactions of an intra- or intermolecular nature seems likely, and (in the latter case) these could
lead to the presence of tertiary chlorine in these defects.
Experimental and theoretical evaluation of the reactions leading to formation of internal double bonds in suspension PVC Purmova, Jindra; Pauwels, Kim F. D.; Agostini, Michela; Bruinsma, Maarten; Vorenkamp, Eltio J.; Schouten, Arend J.; Coote, Michelle L.
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