1. Crystallization behaviors in the isotactic polypropylene/graphene composites
- Author
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Songmei Zhao, Charles C. Han, Yingjuan Huang, Jin-Yong Dong, and Fenghua Chen
- Subjects
Materials science ,Polymers and Plastics ,Graphene ,Organic Chemistry ,Kinetics ,Nucleation ,Epitaxy ,law.invention ,Avrami equation ,law ,Tacticity ,Materials Chemistry ,Thermal stability ,Crystallization ,Composite material - Abstract
Crystallization behaviors and kinetics of iPP in an in-situ prepared isotactic polypropylene/graphene (iPP/G) composites were studied in this paper. In samples used in this study, the graphene fillers were well dispersed, and the interfacial adhesion exhibited enhanced features between graphene and iPP components. The thermal stability of the composites was improved by about 100 °C compared to the pristine iPP. It was found that the crystallization morphology, crystallization rate and kinetics of the iPP/G composites were significantly influenced by the presence of graphene. The nucleation and epitaxial growth of iPP on the graphene surface were observed and studied in detail. It was observed that the nucleation of iPP favored to occur at the wrinkles and edges due to the good match of the lattice parameters and the weak spatial hindrance compared to the smooth surface. Numerous nuclei epitaxially formed and the size of the crystals was very small. The schematic diagram was also proposed for the nucleation and growth process of iPP on the graphene surface in the iPP/G composites. Meanwhile, the overall crystallization kinetics and crystals growth were analyzed through Avrami equation. The obtained Avrami index n decreased with the graphene loadings and was close to 2 for the iPP/G composites, which implied that the growth of iPP in the composites was in two-dimension. And this was caused by the structure of graphene and the spatial confinement effect of graphene platelets in the iPP/G composites.
- Published
- 2014