Synthesis and characterization of poly(dimethylsiloxane-urethane) nanocomposites: Effect of (in)completely condensed silsesquioxanes on thermal, morphological, and mechanical properties

Abstract

The structural properties of completely condensed and incompletely condensed silsesquioxane in the polyurethane nanocomposites containing 17.5 wt % of silsesquioxane was investigated by FTIR, TGA, scanning electron microscopy (SEM), X‐ray diffraction (XRD), and DMA techniques. FTIR spectra shows the existence of hydrogen bonding in the PU‐POSS system. The intensity of hydrogen bonding decreases with the increase in POSS‐H loading suggesting the prevention of the formation of hydrogen bonding by the addition of POSS‐H molecule. SEM analysis reveals the incompatibility of POSS‐H molecule in the PU matrices exhibiting greater extent of phase separation and a large number of POSS aggregates on the addition of POSS‐H molecule in the PU‐POSS matrices. The TGA thermograms show that the POSS‐PU hybrids possess excellent thermal stabilities. However, the incorporation of POSS‐H molecule leads to a decrease in the thermal properties and only the char yield values increase with the increase in the POSS‐H content in the PU‐POSS hybrids. The XRD pattern reveals that the crystalline structure of POSS molecules are destroyed by the polymer matrices in the PU‐POSS hybrid films. The decrease in the bending storage modulus E′ values with the increase in the POSS‐H content proves the retardation of hydrogen bonding formation by the POSS‐H molecule in the PU‐POSS hybrid. © 2009 Wiley Periodicals, Inc. J Appl Polym Sci, 2009