The glass transition in linear low density polyethylene determined by thermally stimulated depolarization currents

New thermally stimulated depolarization currents (TSDC) results on LLD polyethylene functionalized with diethylmaleate polar groups are precisely computer fitted with the direct signal analysis technique. It is shown that the TSDC spectrum consists, with increasing temperatures, of a sub-y peak, a sharp y peak, and a p and an a relaxation. The first peak is analyzed in terms of Arrhenius relaxation times, whereas the y and p transitions could only be fitted by using Vogel-Fulcher temperature dependence for the relaxation times.

The best value for To obtained from both fittings is 69.7 K. This is a quantitative proof for the identification of the y transition as one of the dielectric manifestations of the glassrubber transition for polyethylenes, Tg = 136.5 K, which has been discussed extensively in the literature. The p relaxation, Tgo = 237 K, has also the expected characteristic of a glass transition; the existence of two Ts in polyethylene could explain our results.