Print Email Facebook Twitter Characterization and analysis of the interlaminar behavior of thermoplastic composites considering fiber bridging and R-curve effects Title Characterization and analysis of the interlaminar behavior of thermoplastic composites considering fiber bridging and R-curve effects Author Tijs, B.H.A.H. (TU Delft Aerospace Structures & Computational Mechanics; Fokker/GKN Aerospace) Abdel-Monsef, S. (University of Girona) Renart, J. (University of Girona) Turon, A. (University of Girona) Bisagni, C. (TU Delft Aerospace Structures & Computational Mechanics) Date 2022 Abstract Thermoplastic composites can enable the development of new manufacturing techniques to make the aviation industry more sustainable while at the same time greatly benefit cost-efficient and high-volume production. One of the thermoplastic composite materials that can enable this transition is AS4D/PEKK-FC. In this work, the interlaminar properties of AS4D/PEKK-FC thermoplastic composite are characterized and analyzed by means of Mode I, II and Mixed Mode I/II at 50:50 tests, while considering fiber bridging and R-curve effects. In order to achieve stable crack propagation the test configurations are adjusted to account for the large fracture process zone ahead of the crack tip and an appropriate data reduction method is selected. The experimental data is reduced using an inverse methodology to extract cohesive laws based on only the load–displacement curves. Additionally, the use of this methodology provides new insights into the validity of two different mode II tests and the influence of fiber bridging on the mixed-mode interlaminar behavior. The interlaminar damage mechanisms are investigated by means of scanning electron microscopy. The resulting cohesive laws are implemented in commercial finite element software in tabular form, without the need for user-subroutines. All experimental test configurations are analyzed using a single material card and it is shown that fiber bridging and R-curve effects are well captured. Subject Cohesive lawFiber bridgingFinite element analysisInterlaminar fractureR-curve effectThermoplastic composites To reference this document use: http://resolver.tudelft.nl/uuid:79e09105-945e-471c-81bf-6fea71930eb7 DOI https://doi.org/10.1016/j.compositesa.2022.107101 ISSN 1359-835X Source Composites Part A: Applied Science and Manufacturing, 162 Part of collection Institutional Repository Document type journal article Rights © 2022 B.H.A.H. Tijs, S. Abdel-Monsef, J. Renart, A. Turon, C. Bisagni Files PDF 1_s2.0_S1359835X22002846_main.pdf 7.21 MB Close viewer /islandora/object/uuid:79e09105-945e-471c-81bf-6fea71930eb7/datastream/OBJ/view