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Using Nitroxides to Enhance Carbon Fiber Interfacial Adhesion and as an Anchor for “Graft to” Surface Modification Strategies

Version 4 2024-07-29, 06:19
Version 3 2024-06-19, 20:12
Version 2 2024-05-31, 00:46
Version 1 2023-08-24, 05:26
journal contribution
posted on 2024-07-29, 06:19 authored by Daniel J Eyckens, Jacqui AdcockJacqui Adcock, James P Blinco, Kathryn E Fairfull‐Smith, Jessica Harris, Filip Vuković, Siyuan He, Kelegedara DharmasiriKelegedara Dharmasiri, Tiffany WalshTiffany Walsh, Paul FrancisPaul Francis, Andreas Hendlmeier, Luke HendersonLuke Henderson
AbstractNitroxide groups covalently grafted to carbon fibers are used as anchoring sites for TEMPO‐terminated polymers (poly‐n‐butylacrylate and polystyrene) in a “graft to” surface modification strategy. All surface‐modified fibers are evaluated for their physical properties, showing that several treatments have enhanced the tensile strength and Young's modulus compared to the control fibers. Up to an 18% increase in tensile strength and 12% in Young's modulus are observed. Similarly, the evaluation of interfacial shear strength in an epoxy polymer shows improvements of up to 144% relative to the control sample. Interestingly, the polymer‐grafted surfaces show smaller increases in interfacial shear strength compared to surfaces modified with a small molecule only. This counterintuitive result is attributed to the incompatibility, both chemical and physical, of the grafted polymers to the surrounding epoxy matrix. Molecular dynamics simulations of the interface suggest that the diminished increase in mechanical shear strength observed for the polymer grafted surfaces may be due to the lack of exposed chain ends, whereas the small molecule grafted interface exclusively presents chain ends to the resin interface, resulting in good improvements in mechanical properties.

History

Journal

Macromolecular Rapid Communications

Pagination

1-10

Location

London, Eng.

ISSN

1022-1336

eISSN

1521-3927

Language

eng

Publication classification

C1 Refereed article in a scholarly journal

Publisher

Wiley

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