Permeability Measurement of Glass-Fiber Textiles Used in Composites Industry Using Radial Flow Experimental Setup and Comparison with Image-Based Numerical Methods-Reference-Cited by-同舟云学术

Permeability Measurement of Glass-Fiber Textiles Used in Composites Industry Using Radial Flow Experimental Setup and Comparison with Image-Based Numerical Methods

Published:2024-08-26 Issue:3 Volume:6 Page:49
ISSN:2413-4155
Container-title:Sci
language:en
Short-container-title:Sci

Author:

Boubaker Mouadh¹²,Wijaya Willsen³,Cantarel Arthur¹⁴^ORCID,Debenest Gérald⁵⁶,Bickerton Simon³

Affiliation:

1. Institut Clément Ader (ICA), CNRS UMR 5312, University of Toulouse, 65000 Tarbes, France

2. Institut Universitaire Technologique of Tarbes, Université Paul Sabatier UPS, 65000 Tarbes, France

3. Centre for Advanced Materials Manufacturing and Design, Department of Mechanical Engineering, The University of Auckland, Auckland 1010, New Zealand

4. Institut Universitaire Technologique of Tarbes, Université de Technologie Tarbes Occitanie Pyrénées UTTOP, 65000 Tarbes, France

5. Toulouse INP, Université Paul Sabatier, 31400 Toulouse, France

6. IMFT (Institut de Mécanique des Fluides de Toulouse), Université de Toulouse, Allée Camille Soula, 31400 Toulouse, France

Abstract

Permeability measurement of engineering textiles is a key step in preparing composite manufacturing processes. A radial flow experimental setup was used in this work to measure the unsaturated and saturated in-plane permeabilities of five different types of E-glass textiles and their ratios. In parallel, delayed tow saturation during the oil injection stage was visually observed to identify fabrics that exhibited a significant dual-scale effect. A numerical approach to determine the saturated permeability of a given fabric geometry at the mesoscale was tested and validated against analytical models found in the literature. It was then applied to a realistic geometry acquired from an E-glass plain weave textile using an X-ray microtomography scanner (μCT). Two numerical methods were adopted: the single-scale method, where the tows are considered impermeable, and the dual-scale method, where the permeability of the tows is taken into account. The numerical results from both methods were then compared with the experimental values and showed good agreement, especially with the second method.

Publisher

MDPI AG

Link

https://www.mdpi.com/2413-4155/6/3/49/pdf

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