Competing bubble formation mechanisms in rigid polyurethane foaming

This study investigates the influence of air bubbles inclusion on the foaming of water blown and water-pentane blown rigid polyurethane and polyisocyanurate foams. It was observed that, when a large number of air bubbles were included in the reacting system during the mixing stage (fast mixing), no further bubble nucleation from water reaction or pentane evaporation occurred. In this case, foam morphology was solely dictated by the mixing stage and by later bubble coarsening. Instead, when no air bubbles were included during mixing (slow mixing), nucleation of new bubbles from CO2 (from water-isocyanate reaction) and pentane was observed. Furthermore, both bubble coalescence and Ostwald ripening were observed as mechanisms responsible for the foam morphology coarsening, the latter being less effective in the case of polyisocyanurate foams.

Automated summary

The influence of air bubbles inclusion on the foaming of water blown and water-pentane blown rigid polyurethane and polyisocyanurate foams is dependent on whether air bubbles are included during the mixing process, which affects the evolution of foam morphology.