Metal acetylacetonates as latent accelerators for anhydridehyphen;cured epoxy resins

Cobalt (111) acetylacetonate serves as an accelerator for anhydride curable epoxy resin system and the rate of curing is found to increase with enhanced concentrations of the metal chelate. There is also an appreciable reduction in the cure gel time. Kinetic studies based on thermal analytical techn

## 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

A series of novel chain-extended ureas ( U i ) containing poly(ethylene glycol) (PEG) spacers with different molecular weights were synthesized and the reactive mechanism, reactive activity, impact strength, dynamic mechanical behavior, morphology, and storage properties of the epoxy resin/chain-ext

## Abstract A crystalline condensate of dibutyltin oxide and tributyl phosphate (Sn‐P‐c) was more effective than the stannous octoate and dibutyltin dilaurate in accelerating the curing of the epoxy resin/4,4′‐diamino diphenyl sulfone (DDS) system, based on an equal tin concentration. Water took pa