Latex interpenetrating polymer networks based on acrylic polymers. I. Predicted and observed compatibilities

## Synopsis Two latex interpenetrating polymer networks, one prepared from a pair of supposedly compatible polymers and the other from an incompatible pair, were investigated using transmission electron microscopy and dynamic mechanical analysis. From the results, it was proposed that both interpe

Two different acrylic copolymeric seeds (with 0 and 6% methacrylic acid), having very high variation in the hydrophilicity, were used to develop latex interpenetrating polymer networks (LIPNs) with polystyrene as polymer 11, to study the effect of the mode of monomer I1 addition, such as continuous

Latex interpenetrating polymer networks based on high styrene resin ("HSR300") as seed latex and polystyrene as the second polymer have been synthesized in different compositional ratios. The morphology of resultant materials was determined by field emission electron microscopy, atomic force microsc

Interpenetrating polymer networks (IPN's) of poly(alky1 methacrylates) and poly-(alkyl acrylates) have been synthesized in latex form. Dynamic mechanical spectroscopy studies on these materials revealed extraordinarily broad glass transition regions, illustrating the semicompatible nature of these m

Simultaneous interpenetrating polymer networks (SINs) based on epoxy/ poly(n-butyl acrylate) systems were synthesized at 120ЊC. The polymerization kinetics were studied both in situ by Fourier Transform Infrared Spectroscopy (FT-IR). Three key events occurred during the polymerization, namely the ge