Homogeneous epoxy-acrylic interpenetrating polymer networks: preparation and thermal properties

## Abstract Acrylic‐epoxy interpenetrating polymer networks were prepared by means of UV curing. The photopolymerization process was investigated via real‐time FTIR spectroscopy. The hybrid, cured films showed a broad tan __δ__ peak in DMTA demonstrating the high damping properties of the hybrid, c

A~tract--lnterpenetrating polymer networks were prepared by the sequential mode of synthesis using an epoxy resin as the plastomer and poly(ethyl acrylate), PEA, as the elastomer components, respectively. Two types of IPNs; viz. full and semi, were prepared and characterized by measurements of tensi

## Abstract A fluorinated acrylic resin was synthesized for use as a co‐monomer with a commercially available epoxy resin for UV‐cured interpenetrating polymer network preparation. Hybrid IPN networks were achieved with morphology ranging from a co‐continuous IPN to complete phase separation simply

Full (interpenetrating networks (IPNs)) and semi-IPNs of the epoxy resin and poly(ethyl methacrylate) (PEMA) were prepared by the sequential mode of synthesis. These were characterized with respect to their mechanical properties, namely, tensile strength, elongation at break, modulus, and toughness.