Flexibility improvement of epoxy resin by using polysiloxanes and their derivatives

## Abstract Polysiloxane‐modified epoxy resin aqueous dispersions were prepared by the reaction of amino‐polysiloxane (APS) with a graft epoxy resin that was synthesized with a diglycidyl ether of bisphenol A type epoxy resin and styrene/acrylic acid. The measurements of the epoxy values and FTIR s

A tetrafunctional epoxy resin was modified with polyetherimide (PEI) to improve its fracture toughness. To improve the high-performance epoxy toughening, the effective functional groups were introduced for pristine PEI. PEI containing a ethylamine group as a functionality was obtained by reacting it

A series of phenol-based and naphthol-based aralkyl epoxy resins were synthesized by the condensation of p-xylylene glycol with phenol, o-cresol, p-cresol, or 2-naphthol, respectively, followed by the epoxidation of the resulting aralkyl novolacs with epichlorohydrin. The incorporation of stable dis

## Abstract Bisphenol‐A‐based epoxy resin was cured with an anhydride hardener in the presence of benzimidazoles and their complexes as accelerators. Investigations have revealed an appreciable reduction in the cure and gel times. The kinetic studies based on DSC showed that the rate of curing incr

## Abstract Epoxy‐terminated poly(aryl ether sulfone)s (PSE) were prepared by the reaction of epichlorohydrin with hydroxyethyl‐terminated polysulfones, which were synthesized from chloro‐terminated polysulfones (PSC) and diethanolamine. Both PSE and PSC were used as modifiers for toughening of bis