Foaming and curing an aqueous epoxy foam using microwave
Abstract
This study reports the effects of microwave energy, water content, and blowing agent concentration to the morphology, mechanical and thermal properties of aqueous epoxy
foam based on polyamide-epoxy adduct. Samples of microwave energy were prepared
at 160 to 320 watts of different microwave energy level and the samples of variation
water content were formulated by using 25 to 200 phr of water content. Furthermore,
the samples for variation of blowing agent concentration were produced using 0 to 4 phr
of ammonium carbonate as blowing agent. Water was added as a green solvent and
played as the void template. Mixing process of all ingredients was carried out based on
their determined recipes by using an IKA overhead stirrer at speed 300 to 1200 rpm.
Foaming and curing process were implemented using microwave oven. The foam
samples were undergone 4 h post-cure at 70°C oven temperature. Morphology using
Optical microscope (OM), Scanning electron microscope (SEM) showed that higher
microwave energy and higher blowing agent concentration were better foaming and
exist more cell interconnection. Increase of water content more than 100 phr, the
aqueous mixture was changed from W/O system (water in epoxy resin) to W/O/W
system (water in epoxy resin in water). This affects lower expansion and increase the
gel time of sample W100 and W200. The foam characteristic and properties was found
to be well reflecting the foams morphology. Theoretically, higher porosity caused lower
compression stress but slight improved the thermal resistance at degradation
temperature below 450oC due to lower heat transfer within the foam specimens.
Compression set at room temperature exhibited an excellent recovery of 100%, which
reduced to 95 – 68 % depending on foams formula if compressed at 70oC oven
temperature. The study proves that the aqueous process is green, safe and no volatile
organic compounds (VOCs). Besides of that, uses low concentration of blowing agent
to produce epoxy foams with good performances.
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