Journal
COMPOSITE STRUCTURES
Volume 311, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.compstruct.2023.116847
Keywords
Recycling; Energy absorption; High temperature; High rate; Crashworthiness; Carbon fiber
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This study investigated the performance of recycled carbon fiber composites in terms of energy absorption, crush efficiency, and crush stress at different temperatures. The results showed that recycled fiber composites can achieve high energy absorption levels, making them a promising alternative to expensive and environmentally unfriendly continuous fiber laminates.
Fiber reinforced polymer composites are finding applications in the automotive space for structurally critical applications including crash management. The use of recycled carbon fiber reinforcement can greatly reduce carbon emissions. In this study, recycled carbon fiber composites were manufactured into a self-supporting geometry using three matrices: polyphenylene sulfide (PPS), acrylonitrile butadiene styrene (ABS), and a structural epoxy, and subsequently crushed between flat platens at dynamic rates ranging from 4.6 to 9.1 m s-1 at temperatures in a range of-40 degrees C to 80 degrees C. Load-displacement data was used to evaluate their specific energy absorption, crush efficiency, and steady-state crush stress. The energy absorption of the ABS composites was strongly sensitive to temperature, while the PPS composites exhibited strong crush efficiency dependence with both rate and temperature. The epoxy composites exhibited stable crush behavior at dynamic crush rates but exhibited a dramatic reduction in crush efficiency relative to quasi-static tests. The results of this study indicate that recycled fiber composites can achieve very high energy absorption levels (50-80 kJ kg-1 at room tem-perature) that make them an excellent alternative to more expensive and less environmentally friendly contin-uous virgin fiber laminates.
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