Abstract
The growth rate of an ethylene-propylene random copolymer with a 2.8% w/w ethylene content was studied in a similar manner to polypropylene. A growth regime transition associated with a birefringence change was observed at 130‡C, while the same phenomena appeared at 138‡C in isotactic polypropylene. In both polymers positive birefringence corresponds to Regime III, whereas negative birefringence of spherulites is associated with Regime II. The birefringence change is attributed to a change in the organization of crystalline lamellae: quadritic arrays of intercrossing lamellae at low temperature (Regime III) and preferentially radiating lamellae at higher temperature (Regime II). We confirm that such a morphological change can be interpreted using the concept of “non-adjacent re-entry” introduced in Hoffman's kinetic theory. Thus, quadritic morphology seems to have a partly kinetic origin. The shift of the transition temperature in the copolymer is due to the rejection of ethylene segments at the surface of crystalline lamellae of polypropylene.
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Monasse, B., Haudin, J.M. Effect of random copolymerization on growth transition and morphology change in polypropylene. Colloid & Polymer Sci 266, 679–687 (1988). https://doi.org/10.1007/BF01410276
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DOI: https://doi.org/10.1007/BF01410276