Abstract
Polysulfone nanocomposite foams containing variable amounts of graphene nanoplatelets (0-10 wt%) were prepared by water vapor-induced phase separation (WVIPS) and supercritical CO(2) (scCO(2)) dissolution. WVIPS foams with two ranges of relative densities were considered, namely, between 0.23 and 0.41 and between 0.34 and 0.46. Foams prepared by scCO(2) dissolution (0.0-2.0 wt% GnP) were obtained with a relative density range between 0.35 and 0.45. Although the addition of GnP affected the cellular structure of all foams, they had a bigger influence in WVIPS foams. The storage modulus increased for all foams with increasing relative density and GnP's concentration, except for WVIPS PSU-GnP foams, as they developed open/interconnected cellular structures during foaming. Comparatively, foams prepared by scCO(2) dissolution showed higher specific storage moduli than similar WVIPS foams (same relative density and GnP content), explained by the microcellular structure of scCO(2) foams. As a result of the plasticizing effect of CO(2), PSU foams prepared by scCO(2) showed lower glass transition temperatures than WVIPS foams, with the two series of these foams displaying decreasing values with incrementing the amount of GnP.