Nihon Kikai Gakkai ronbunshu (Nov 2014)

Effect of calcium carbonate particle dispersion on the mechanical properties of polypropylene/montmorillonite composites

  • Akira SHIGANO,
  • Tetsuo TAKAYAMA,
  • Kentaro TAKI,
  • Hiroshi ITO

DOI
https://doi.org/10.1299/transjsme.2014smm0311
Journal volume & issue
Vol. 80, no. 819
pp. SMM0311 – SMM0311

Abstract

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Effect of calcium carbonate (CaCO3) particle dispersion on the mechanical properties of polypropylene (PP)/montmorillonite (MMT) composites was investigated. These composites were fabricated by melt-mixing using a twin-screw extruder, and the dumbbell shaped specimen was also fabricated by injection molding. Tensile and notched Izod impact tests were conducted by using dumbbell shaped specimens. The results showed that CaCO3 particle dispersion improved the elongation at break and notched Izod impact strength of PP/organized MMT composites. This mechanism was discussed from MMT dispersion and fracture surface observations using a scanning electron microscopy. It was found that organized MMT was well-dispersed by dispersed CaCO3 particle. The reason was thought to be that localized shear stress near MMT was increased by increase of localized viscosity near MMT due to CaCO3 particle dispersion. Well-dispersed MMT improved the the stability of plastic deformation at quasi-static loading and energy dissipation at impact fracture, resulting in the improvement of the elongation at break and impact strength of PP/MMT composites. In addition, CaCO3 particle dispersion also improved the tensile modulus of PP/MMT composites. This mechanism was discussed from interparticle distance of MMT and CaCO3 calculated by Tyuzyo's equation. From the above results, it was suggested that CaCO3 particle dispersion was an effective way for improvement of mechanical properties and impact strength of PP/MMT composites.

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