Projects per year
Abstract
To promote the usage of recycled composite material, it is of paramount importance to develop quality control and property assurance methodologies compatible with the format of reclaimed fibers. In this paper, the concept of using interlaminated hybrid specimens, whose tensile response has been tailored with the aid of the Damage mode map, is exploited to unambiguously identify the reclaimed fibers failure strain. The interlaminated hybrid specimens
are manufacturing by sandwiching a layer of aligned discontinuous reclaimed carbon fibers produced with the HiPerDiF (High Performance Discontinuous Fibre) method between continuous glass fibers. The reliability of the obtained results is compared with results obtained with single fiber tensile tests. The developed methodology is then applied to the investigation of the strength retention of carbon fibers reclaimed through a solvolysis process and to the effects of the fiber length on the HiPerDiF alignment process.
are manufacturing by sandwiching a layer of aligned discontinuous reclaimed carbon fibers produced with the HiPerDiF (High Performance Discontinuous Fibre) method between continuous glass fibers. The reliability of the obtained results is compared with results obtained with single fiber tensile tests. The developed methodology is then applied to the investigation of the strength retention of carbon fibers reclaimed through a solvolysis process and to the effects of the fiber length on the HiPerDiF alignment process.
Original language | English |
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Number of pages | 8 |
Journal | Advanced Manufacturing: Polymer and Composites Science |
Early online date | 2 Apr 2018 |
DOIs | |
Publication status | E-pub ahead of print - 2 Apr 2018 |
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- 2 Finished
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High Performance Discontinuous Fibre Composites - a sustainable route to the next generation of composites
3/12/17 → 2/06/21
Project: Research
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HiPerDuCT - Programme Grant - Full Proposal
Bond, I. P., Etches, J. A., McAlpine, H. C., Potter, K. D., Weaver, P. M., Bismarck, A., Shaffer, M. & Wisnom, M. R.
1/07/11 → 30/06/18
Project: Research