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In situ preparation and property investigation of polypropylene/fumed silica nanocomposites

Azinfar, B ; Sharif University of Technology

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  1. Type of Document: Article
  2. DOI: 10.1002/pc.22631
  3. Abstract:
  4. We present the preparation of polypropylene (PP)/fumed silica (FS) nanocomposites via in situ polymerization in this article. The approach includes preparation and utilization of a bisupported Ziegler-Natta catalytic system in which magnesium ethoxide and FS are used as conjugate supports of the catalyst. Catalyst preparation and polymerization processes are carried out in the slurry phase and under argon atmosphere. Scanning electron microscopy images show a good dispersion of the FS throughout the PP matrix. Results from differential scanning calorimetry reveal that the crystallization temperature of prepared nanocomposites increases by increasing FS loading. Also, crystal content of nanocomposites increases as the FS concentration increases up to 3.48 wt%. Nanocomposites containing <3.14 wt% of nanoparticles do not show considerable change in their melting point where with more increment in filler concentration, melting temperature slightly increases. Thermogravimetric analysis shows a considerable improvement in the thermal stability of PP/FS nanocomposites compared to pure PP. Rheological studies indicate that the incorporation of FS into PP matrix results in increment in storage modulus, loss modulus, and complex viscosity of polymeric matrix, particularly in low frequency region. By increasing FS loading, the PP/FS nanocomposites show a transition from liquid-like to solid-like viscoelasticity behavior depicting microstructural changes in their structures
  5. Keywords:
  6. Crystallization temperature ; Filler concentration ; In-situ polymerization ; Low frequency regions ; Microstructural changes ; Polymerization process ; Scanning electron microscopy image ; Silica nanocomposites ; Catalysts ; Differential scanning calorimetry ; Melting point ; Nanocomposites ; Polymerization ; Polypropylenes ; Scanning electron microscopy ; Silica ; Thermogravimetric analysis ; Loading
  7. Source: Polymer Composites ; Vol. 35, issue. 1 , January , 2014 , pp. 37-44 ; ISSN: 02728397
  8. URL: http://onlinelibrary.wiley.com./doi/10.1002/pc.22631/abstract;jsessionid=FB05BC8FEEDF8D4301AD5014E95E3A9A.f03t04