Ultra-stretchable and Self-Healable Vitrimers with Tuneable Damping and Mechanical Response
Abstract
Vitrimers are a relatively new class of polymer materials with unique properties offered by cross-links that can undergo associative exchange dynamics. We here present a new class of vitrimers based on poly(methyl acrylate) with cross-links utilising dioxaboralane metathesis. These vitrimers demonstrate a combination of ultra-stretchability (up to 80 times their own length), mechanical toughness ( 40 MJ/m3), and thermal stability up to T 250 C; moreover, the vitrimers demonstrate excellent mechanical damping characterised by a loss factor ((δ)) with a maximum of 2-3 and an effective value >0.3 across five decades in frequency (0.001-100 Hz), or correspondingly across a T-range of 35 C near room temperature (for a probe frequency of 1 Hz). The vitrimers can be successfully re-processed using both a thermo-mechanical and a chemical processing route, and can for low cross-link density self-heal at room temperature, making them suitable for sustainable applications. The material properties are directly tuneable by variation of both the amount of cross-linker and by the degree of curing. Thus, this class of vitrimers are promising for applications where stretchability combined with mechanical toughness and/or a high mechanical dissipation is required.
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