Modelling of mechanical properties of randomly oriented strand thermoplastic composites

There is an emerging interest in the aerospace industry to manufacture components with intricate geometries using discontinuous-fibre carbon/polyether-ether-ketone moulding systems (obtained by cutting unidirectional tape into strands). Great formability and high modulus can be achieved with this ty...

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Veröffentlicht in:Journal of composite materials 2017-03, Vol.51 (6), p.831-845
Hauptverfasser: Selezneva, Marina, Roy, Steven, Meldrum, Sean, Lessard, Larry, Yousefpour, Ali
Format: Artikel
Sprache:eng
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Zusammenfassung:There is an emerging interest in the aerospace industry to manufacture components with intricate geometries using discontinuous-fibre carbon/polyether-ether-ketone moulding systems (obtained by cutting unidirectional tape into strands). Great formability and high modulus can be achieved with this type of composites, but the high variability of measured properties can have a detrimental effect on the design allowables. When it comes to prediction of mechanical properties, it is important to capture the average strength and modulus as well as their statistical variability. This article proposes a stochastic finite element technique that uses the concept of randomly oriented strands to model variability, and the application of Hashin’s failure criteria and fracture energies to estimate strength. Overall, the model matches the trends observed during experiments and shows that strength of randomly oriented strand composites is significantly lower than that of continuous-fibre laminates due to the ‘weakest-link’ principle.
ISSN:0021-9983
1530-793X
DOI:10.1177/0021998316654748