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Exploring the Limits of High- T g Epoxy Vitrimers Produced through Resin-Transfer Molding.

Vincent SchenkRaffaele D'EliaPhilippe OlivierKarine LabastieMathias A DestaracMarc Guerre
Published in: ACS applied materials & interfaces (2023)
Over the past few years, scientists have developed new ways to overcome the recycling issues of conventional thermosets with the introduction of associative covalent adaptable networks (i.e., vitrimers) in polymer materials. Even though various end-use vitrimers have already been reported, just a few of them have targeted high-performance industrial applications. Herein, we develop a promising high-performance epoxy vitrimer based on a commercially available resin widely used in aeronautics with the highest glass transition temperature ( T g ) of 233 °C ever reported for a vitrimer. A complete study of its physicochemical properties and cure kinetics was conducted, enabling the construction of the first time-temperature-transformation (TTT) diagram reported in the literature. This diagram allows a full determination of the processing and curing parameters leading to the manufacturing of vitrimer samples by the resin-transfer molding (RTM) process. The reshapability and limits therefrom of this high- T g vitrimer were evaluated by three successful thermoforming cycles without degradation.
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