Publication | Closed Access
Structure and properties of polyurethane-silica nanocomposites
334
Citations
16
References
2000
Year
Materials SciencePolymer MaterialEngineeringPolyurethane-silica NanocompositesPolymer NanotechnologyNanomaterialsPolymer Nanostructured MaterialsPolymer ScienceMechanical EngineeringPolymer Nanostructured CompositesSingle-phase Polyurethane MatrixNanostructured PolymerPolymer NanocompositesNanocompositesControl SeriesNanocompositeNanosilica FillerPolymer Chemistry
Nanocomposites were fabricated by incorporating varying concentrations of nanosilica into a single-phase polyurethane matrix, with a control series prepared using equivalent amounts of micron-size silica. The amorphous nanosilica produced transparent composites at all loadings, and the nanocomposites showed higher strength and elongation at break but lower density, modulus, and hardness than the micron-size silica-filled polyurethanes, while dielectric behavior remained essentially unchanged. © 2000 John Wiley & Sons, Inc., J Appl Polym Sci 76:133–151, 2000.
Nanocomposites with different concentrations of nanofiller were prepared by adding nanosilica filler to the single-phase polyurethane matrix. A control series was prepared with the same concentrations of micron-size silica. The nanosilica filler was amorphous, giving composites with the polyurethane that were transparent at all concentrations. The nanocomposites displayed higher strength and elongation at break but lower density, modulus, and hardness than the corresponding micron-size silica-filled polyurethanes. Although the nanosilica showed a stronger interaction with the matrix, there were no dramatic differences in the dielectric behavior between the two series of composites. © 2000 John Wiley & Sons, Inc. J Appl Polym Sci 76: 133–151, 2000
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