Recrystallization behavior of β‐isotactic polypropylene in homogeneous and heterogeneous matrix–fiber composites

Abstract

Abstractβ‐isotactic polypropylene (β‐iPP) cylindritic crystals were produced in homogeneous iPP fiber–matrix composites and heterogeneous polyamide (PA)–iPP fiber–matrix composites under different sample preparation conditions. The melt recrystallization behaviors of the β‐iPP crystals obtained in the homogeneous and heterogeneous composites were studied by optical microscopy. The experimental results show that, by heating the sample to 180 °C, the birefringence contributed by the iPP crystals in both α‐ and β‐forms disappears completely. During the cooling process, the β‐iPP crystals in the homogeneous composite appear again, while the iPP in the heterogeneous composite crystallizes in its α‐form. This demonstrates the different origins of the β‐iPP cylindrites in the homogeneous and heterogeneous composites. While the β‐iPP cylindrites in the heterogeneous composite are associated with the sample preparation procedure, the β‐iPP cylindrites in the homogeneous composite are produced by recrystallization of the molten but incompletely relaxed iPP fibers. In situ observation of the melt recrystallization process shows that the molten iPP oriented fibers crystallize first during the cooling process at relatively higher temperature in the α‐form. Abundant randomly dispersed β‐iPP nuclei formed at the surface of the recrystallized iPP fibers, which generate the β‐iPP cylindrites. Copyright © 2012 Society of Chemical Industry