Fatigue performance and damage characterisation of ultra-thin tow-based discontinuous tape composites

Ioannis Katsivalis, Monica Norrby, Florence Moreau, Erik Kullgren, Soraia Pimenta, Dan Zenkert, Leif E. Asp

Research output: Contribution to journalArticlepeer-review

2 Citations (SciVal)

Abstract

Tow-based discontinuous composites are an attractive alternative material to conventional continuous composites as they offer in-plane isotropy, enhanced manufacturability allowing to achieve complex 3D shapes with high curvatures and local reinforcement in critical areas, while also maintaining high strength and stiffness, therefore expanding the design space significantly. In addition, the use of ultra-thin tapes and optimised manufacturing methods can increase the mechanical properties even further and change the damage mechanisms. Fatigue, however, could be a limiting design factor, as the fatigue behaviour of these materials has not been fully characterised. This work presents a complete study on the fatigue response of ultra-thin tow-based discontinuous composites: fatigue S–N curves are measured, and the damage and failure mechanisms are characterised utilising optical and scanning electron microscopy. Finally, a critical interpretation of the results is also presented by comparing the performance of ultra-thin tow-based discontinuous composites against other similar fibre reinforced composites and metals. It is shown that the optimised manufacturing methods combined with low tape thickness leads to enhanced quasi-isotropic fatigue performance. In addition, the fatigue limit was raised significantly compared to other discontinuous composites, and the tow-based discontinuous composites outperformed their metal counterparts when the results were normalised with density.

Original languageEnglish
Article number111553
Number of pages10
JournalComposites Part B: Engineering
Volume281
Early online date14 May 2024
DOIs
Publication statusPublished - 15 Jul 2024

Keywords

  • Carbon fibre
  • Damage characterisation
  • Fatigue loading
  • Fractography
  • Tow-based discontinuous composites

ASJC Scopus subject areas

  • Ceramics and Composites
  • Mechanics of Materials
  • Mechanical Engineering
  • Industrial and Manufacturing Engineering

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