Abstract

The thermal stability of organically modified layered silicates is determinant for processing polymer nanocomposites and is believed to play a key role on their properties. In this work, alkyl phosphonium, alkyl pyridinium and dialkyl imidazolium surfactants were used as intercalating agents for the preparation of highly thermally stable organophilic montmorillonites. The thermal decomposition of the surfactants and of their organoclays was studied by combined thermogravimetric analysis (TGA) and mass spectroscopy (MS), which allowed the identification of specific volatile compounds issued from the degradation. In order to investigate the influence of the thermal decomposition of the intercalating agent during processing, the various organoclays were incorporated in a polyethylene terephthalate (PET) matrix. The color of the nanocomposites was significantly affected by the thermal decomposition of the intercalating agent. In the case of the alkyl pyridinium modified clay, the degradation of the intercalating agent during processing was found to alter the clay dispersion. Finally, the crystallization was analyzed by differential scanning calorimetric (DSC) analysis and polarized optical microscopy (POM): it was demonstrated that the kinetics of nucleation and growth is not only affected by the dispersion state of the clay, but also depends on the clay/polymer interface properties, and therefore on the nature of the intercalating agent.

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