A Curing Agent for
Facile Fabrication of Intrinsically
Flame-Retardant Epoxy Vitrimers with Catalyst-Free Mixed Carboxylate/Phosphonate
Transesterification
posted on 2024-07-12, 18:18authored byFeng Liu, Linsheng Wang, Simeng Xiang, Xiang Lin, Jiao Feng, Hongyu Yang, Xiaming Feng, Chaojun Wan
Epoxy vitrimers combine the advantages of thermosetting
and thermoplastic
materials, making them an ideal alternative to traditional thermosetting
resins. However, the fabrication of high-performance flame-retardant
epoxy vitrimers remains a challenge. In this study, utilizing (2-carboxyethyl)phenylphosphinic
acid (CEPPA) as a curing agent, we facilely fabricated a dual-dynamic
epoxy vitrimer incorporating carboxylate esters and phosphonate esters
(CEEP). Compared to traditional epoxy resin (DDEP), the epoxy vitrimer
exhibited tensile strength comparable to traditional epoxy resins
and significantly outperformed in terms of Young’s modulus.
In comparison to carboxylate ester epoxy vitrimer (PAEP), CEEP demonstrated
improved solvent resistance and the ability for recycling without
the need for a catalyst. Additionally, CEEP exhibited outstanding
flame retardancy, achieving a V-0 rating in UL-94 testing, with a
remarkable 66.9% reduction in peak heat release rate (PHRR) and a
significant 34.5% decrease in total heat release (THR) in cone calorimetry
test compared to DDEP. The work offers a promising way for the facile
fabrication of high-performance flame-retardant epoxy vitrimers.