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An Investigation of the Healing Efficiency of Epoxy Vitrimer Composites Based on Zn2+ Catalyst

Barbara Palmieri, Fabrizia Cilento, Eugenio Amendola, T. Valente, Stefania Dello Iacono, M. Giordano, Alfonso Martone

2023Polymers23 citationsDOIOpen Access PDF

Abstract

The need to recycle carbon-fibre-reinforced composite polymers (CFRP) has grown significantly to reduce the environmental impact generated by their production. To meet this need, thermoreversible epoxy matrices have been developed in recent years. This study investigates the performance of an epoxy vitrimer made by introducing a metal catalyst (Zn2+) and its carbon fibre composites, focusing on the healing capability of the system. The dynamic crosslinking networks endow vitrimers with interesting rheological behaviour; the capability of the formulated resin (AV-5) has been assessed by creep tests. The analysis showed increased molecular mobility above a topology freezing temperature (Tv). However, the reinforcement phase inhibits the flow capability, reducing the flow. The fracture behaviour of CFRP made with the vitrimeric resin has been investigated by Mode I and Mode II tests and compared with the conventional system. The repairability of the vitrimeric CFRP has been investigated by attempting to recover the delaminated samples, which yielded unsatisfactory results. Moreover, the healing efficiency of the modified epoxy composites has been assessed using the vitrimer as an adhesive layer. The joints were able to recover about 84% of the lap shear strength of the pristine system.

Topics & Concepts

EpoxyMaterials scienceComposite materialComposite numberRheologyAdhesiveCreepPolymerLayer (electronics)Polymer composites and self-healingSynthetic Organic Chemistry MethodsLignin and Wood Chemistry
An Investigation of the Healing Efficiency of Epoxy Vitrimer Composites Based on Zn2+ Catalyst | Litcius