• Title of article

    Isothermal and non-isothermal crystallization kinetics of hydroxyl-functionalized polypropylene

  • Author/Authors

    Gupta، نويسنده , , Sahil and Yuan، نويسنده , , Xuepei and Chung، نويسنده , , T.C. Mike and Cakmak، نويسنده , , M. and Weiss، نويسنده , , R.A.، نويسنده ,

  • Issue Information
    دوهفته نامه با شماره پیاپی سال 2014
  • Pages
    12
  • From page
    924
  • To page
    935
  • Abstract
    Hydroxyl-modified polypropylenes (PPOH) with side chains containing OH groups were synthesized by copolymerization of the propylene and undecenyloxytrimethylsilane monomers. The isothermal and non-isothermal crystallization behavior of the modified polypropylenes (PPOH) with side chains containing up to 6.8 mol% OH groups were compared with that of polypropylene (PP). The introduction of the OH-comonomer decreased the overall rate of isothermal crystallization compared with PP due to steric effects of the hydroxyl-containing side-chains that hindered packing of the PP backbone chains into a lamellar structure. However, a maximum reduction in the rate of crystallization occurred at an intermediate hydroxyl concentration as a consequence of a competition between the effects of the comonomer on the nuclei density and the thermodynamic barrier to crystallization. Steric hindrance by the comonomer side-chains also reduced the radial growth rate of the crystals in PPOH and produced a coarser crystal morphology than that for PP. PP and PPOH exhibited an identical α-monoclinic crystal structure, but the introduction of only ∼6.8 mol% comonomer reduced the fold-surface free energy of the crystals by 42%. For non-isothermal crystallization, the crystallization peak temperature (Tp) decreased for low concentrations of OH, but above a critical OH concentration, Tp increased, a result similar to the isothermal crystallization rate.
  • Keywords
    Crystal structure and morphology , Crystallization kinetics , Polypropylene
  • Journal title
    Polymer
  • Serial Year
    2014
  • Journal title
    Polymer
  • Record number

    1741697