1. Thermal properties of poly (methyl methacrylate)/organomodified montmorillonite nanocomposites obtained by in situ photopolymerization
- Author
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Alessandra Lima Poli, Marco Antonio Horn Junior, Miguel G. Neumann, Carla Cristina Schmitt Cavalheiro, Silvano R. Valandro, and Patricia Coelho Lombardo
- Subjects
Thermogravimetric analysis ,Materials science ,montmorillonite ,chemistry.chemical_compound ,nanocomposites ,Polymer chemistry ,Organoclay ,General Materials Science ,Thermal stability ,Materials of engineering and construction. Mechanics of materials ,BIOMATERIAIS ,Nanocomposite ,Mechanical Engineering ,thermal properties ,Dynamic mechanical analysis ,poly(methyl methacrylate) ,Condensed Matter Physics ,Poly(methyl methacrylate) ,Montmorillonite ,Chemical engineering ,chemistry ,Mechanics of Materials ,visual_art ,TA401-492 ,visual_art.visual_art_medium ,Glass transition - Abstract
The organoclay/poly(methyl methacrylate) (PMMA) nanocomposites were prepared by in situ photopolymerization method using two solvents, ethanol and acetonitrile. The influences of organoclay loading, solvent nature and length of attached surfactant (C8 or C16) on thermal and mechanical properties were studied by thermogravimetric analysis and dynamic mechanical analysis. Alkylammonium surfactants with C8 and C16 chain lengths were evaluated as clay modifiers. All the nanocomposites prepared in acetonitrile exhibited improvement in their thermal stability, mainly due to the interaction between the clay and the polymer which is maximized by the exfoliated clay structure. In the case of PMMA and nanocomposites synthesized in ethanol, the thermal stability of polymer and nanocomposites remained practically the same once the clay structure is predominantly of the intercalated type. In comparison with pure PMMA, glass transition temperature and storage modulus of polymer are notably increased by the presence of clay. It was found that the chain length of surfactant attached to the SWy-1 clay affects the Tg values. Glass transition temperatures of nanocomposites SWy-1-C16/PMMA were significantly higher than the values obtained for nanocomposites SWy-1-C8/PMMA. This can be attributed to the modifying agent C16, which has a greater hydrophobic chain length. The organic tail can provide a better dispersion of the MMA monomer in the organoclay, resulting in a nanocomposite with predominant exfoliated structure. Another significant factor to be considered was the effect of solvent used in the nanocomposite preparation. Considering nanocomposites with the same chain length (C8 or C16), Tg values obtained for nanocomposites prepared with ethanol is higher than those observed for those prepared in acetonitrile. This was attributed to the influence of the average molecular weight; once the nanocomposites prepared in ethanol exhibited higher polymeric chains.
- Published
- 2013