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Efficient Permeability Measurement and Numerical Simulation of the Resin Flow in Low Permeability Preform Fabricated by Automated Dry Fiber Placement

Authors
  • Agogue, Romain1
  • Chebil, Naziha2, 3
  • Deleglise-Lagardere, Mylène2, 3
  • Beauchene, Pierre1
  • Park, Chung Hae2, 3
  • 1 ONERA (The French Aerospace Lab), 29 Avenue de la Division Leclerc, Châtillon, 92320, France , Châtillon (France)
  • 2 Institut Mines-Télécom, IMT Lille Douai, Polymers and Composites Technology & Mechanical Engineering Department, 941 Rue Charles Bourseul, Douai, 59508, France , Douai (France)
  • 3 Université de Lille, Lille, 59500, France , Lille (France)
Type
Published Article
Journal
Applied Composite Materials
Publisher
Springer Netherlands
Publication Date
Oct 30, 2017
Volume
25
Issue
5
Pages
1169–1182
Identifiers
DOI: 10.1007/s10443-017-9659-8
Source
Springer Nature
Keywords
License
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Abstract

We propose a new experimental method using a Hassler cell and air injection to measure the permeability of fiber preform while avoiding a race tracking effect. This method was proven to be particularly efficient to measure very low through-thickness permeability of preform fabricated by automated dry fiber placement. To validate the reliability of the permeability measurement, the experiments of viscous liquid infusion into the preform with or without a distribution medium were performed. The experimental data of flow front advancement was compared with the numerical simulation result using the permeability values obtained by the Hassler cell permeability measurement set-up as well as by the liquid infusion experiments. To address the computational cost issue, the model for the equivalent permeability of distribution medium was employed in the numerical simulation of liquid flow. The new concept using air injection and Hassler cell for the fiber preform permeability measurement was shown to be reliable and efficient.

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