Abstract
Forced-adiabatic, FT i.r. spectroscopy has been employed to simultaneously monitor polymerization and microphase separation on model flexible polyurethane foam systems. The following combinations of hydroxy functional components were investigated: (1) polyether-polyol and water; (2) polyether-polyol and deuterium oxide; (3) polyether-monol and water; and (4) polyether-monol and deuterium oxide. The formation of urethane, soluble urea, soluble d-urea, hydrogen-bonded urea and associated d-urea species were monitored during their fast bulk copolymerization with a diisocyanate. The decay of isocyanate is correlated to the polymerization kinetics and the evolution of hydrogen-bonded urea/associated d-urea is analysed emphasizing the onset of microphase separation of urea hard-segment sequences. The microphase separation transition (MST) occurred at a critical conversion of isocyanate functional groups. In the deuterium oxide blown foams, there was no trace of hydrogen-bonded urethane in the spectra obtained. In the polyether-monol systems, a lower conversion of isocyanate was observed at the MST and an overall lower reaction conversion was also observed.
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