Polypropylene/Montmorillonite nanocomposites. Review of the synthetic routes and materials properties

The synthetic routes and materials properties of polypropylene/montmorillon ite nanocomposites are reviewed. The nanocomposite formation is achieved in two ways: either by using functionalized polypropylenes and common organo- montmorillonites, or by using neat/unmodified polypropylene and a semi-fluo rinated organic modification for the silicates. All the hybrids can be form ed by solventless melt-intercalation or extrusion, and the resulting polyme r/inorganic structures are characterized by a coexistence of intercalated a nd exfoliated montmorillonite layers. Small additions-typically less than 6 wt %-of these nanoscale inorganic fillers promote concurrently several of the polypropylene materials properties, including improved tensile characte ristics, higher heat deflection temperature, retained optical clarity, high barrier properties, better scratch resistance, and increased flame retarda ncy.