Adhesion Improvement of Thermoplastics-Based Composites by Atmospheric Plasma and UV Treatments

Journal Article (2021)
Author(s)

Gennaro Scarselli (University College Dublin, University of Salento)

D. Quan (TU Delft - Structural Integrity & Composites)

Neal Murphy (University College Dublin)

Brian Deegan (Henkel Ireland Operations & Research Ltd.)

Denis Dowling (University College Dublin)

Alojz Ivankovic (University College Dublin)

Research Group
Structural Integrity & Composites
Copyright
© 2021 Gennaro Scarselli, D. Quan, Neal Murphy, Brian Deegan, Denis Dowling, Alojz Ivankovic
DOI related publication
https://doi.org/10.1007/s10443-020-09854-y
More Info
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Publication Year
2021
Language
English
Copyright
© 2021 Gennaro Scarselli, D. Quan, Neal Murphy, Brian Deegan, Denis Dowling, Alojz Ivankovic
Research Group
Structural Integrity & Composites
Issue number
1
Volume number
28
Pages (from-to)
71-89
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Abstract

The present work is concerned with adhesive bonding of thermoplastic composites used in general aerospace applications, including polyphenylene sulfide (PPS), polyetherimide (PEI) and polyetheretherketone (PEEK) carbon fibre composites. Three different surface treatments have been applied to the PEEK, PPS and PEI-based composites in order to enhance the adhesion: atmospheric plasma, ultraviolet radiation (UV) and isopropanol wiping as a control. Water contact angles and free surface energies were measured following the standard experimental procedure based on the employment of three different liquid droplets. Infrared spectroscopy and X-ray photoelectron spectroscopy (XPS) were subsequently performed to characterize the surface chemistry of the samples after treatment. The single lap joints were manufactured and bonded by an Aerospace grade epoxy-based film adhesive originally developed for use on metals but with the ability to bond treated thermoplastics to good strength (supplied by Henkel Ireland). Quasi-static (QS) tests were conducted. The lap shear strength was evaluated, and the failure mechanisms of the different joints were examined for the range of surface treatments considered. It was found that the performances of the PEEK and PPS joints were considerably improved by the plasma and UV treatments resulting in cohesive and delamination failures, while PEI was unaffected by the plasma and UV treatments and performed very well throughout.

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