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Investigation of thermal degradation and decomposition of both pristine and damaged carbon/epoxy samples with thermal history
journal contribution
posted on 2020-09-11, 14:16 authored by Gang ZhouGang Zhou, Ewa Mikinka, James Golding, Xujin BaoXujin Bao, W Sun, A Ashby© 2020 Although the investigation of thermal damage in composite materials has increased, the short-term thermal degradation and decomposition mechanisms in a non-oxidative environment have not been well established, as the reported thermal damage results were heavily influenced by the analyses of delicately collected volatiles and the presence of oxygen. The aim of this study, using scanning electron microscopy, Fourier transform infrared spectroscopy and thermogravimetry, along with kinetics, was to develop a post-mortem solid residual-based microscopic characterising methodology for thermal damage in carbon/epoxy composites induced by simulated lightning strikes. Fibre tufting, resin sublimation and discolouration were found to represent the severity of damage in three damage zones. Whilst fibre tufting was caused not by thermal sublimation but by returning shock waves, resin sublimation and discolouration were dominated by Joule heating. The carbon concentration in the damaged zones was found to radially decrease outwards and vice versa with oxygen. Decomposition started from epoxy dehydration, accompanied by discolouration and formation of water and carbonyl, and released chemical compounds like 2-propenal, acetylene and carbonyl-containing aromatic ether. The successful identification of these unique heating-formed functional groups provided the confirmation of the proposed methodology.
Funding
2011 Loughborough University/EPSRC–Bridging the Gaps Networking grant
History
School
- Aeronautical, Automotive, Chemical and Materials Engineering
Department
- Aeronautical and Automotive Engineering
- Materials
Published in
Composites Part B: EngineeringVolume
201Pages
108382Publisher
ElsevierVersion
- AM (Accepted Manuscript)
Rights holder
© ElsevierPublisher statement
This paper was accepted for publication in the journal Composites Part B: Engineering and the definitive published version is available at https://doi.org/10.1016/j.compositesb.2020.108382Acceptance date
2020-08-20Publication date
2020-08-25Copyright date
2020ISSN
1359-8368eISSN
1879-1069Publisher version
Language
- en
Depositor
Dr Gang Zhou Deposit date: 9 September 2020Article number
108382Usage metrics
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