Rheological properties of calcium carbonate-filled polypropylene melts

## Abstract The melt rheological behavior of calcium silicate‐filled isotactic polypropylene, with filler volume contents of 0–17.8%, was determined at 493 K. The composites followed the power law in shear stress versus shear rate variations and were shear thinning. Initially, apparent melt viscosi

## Abstract Steady‐state and oscillatory shear behavior of three neat syndiotactic polypropylene (s‐PP) resins and a s‐PP resin (s‐PP#8) filled with CaCO~3~ particles of varying content, size, and type of surface modification were investigated. All of the neat s‐PP resins investigated exhibited the

The dynamic viscoelastic properties of polypropylene (PP)-maleated PP blends in the molten state have been investigated with a dynamic mechanical thermal analyzer (PL-DMTA MKII) at a frequency range () of 0.6 ‫ء‬ 10 Ϫ1 -3.14 ‫ء‬ 10 2 rad s Ϫ1 . In the study, the blends were prepared by melt-blending

Melt rheological properties of blends of polypropylene (PP) and PP grafted with maleic anhydride (PP-g-MA) are studied using a capillary rheometer. A pseudoplastic flow behavior is observed. The pseudoplasticity of the melt reduces with an increase of PP-g-MA content and/or temperature. The PP-g-MA