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Journal of Materials Science

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01-02-2015 | Original Paper

Through-thickness permeability study of orthogonal and angle-interlock woven fabrics

Authors: Xueliang Xiao, Andreas Endruweit, Xuesen Zeng, Jinlian Hu, Andrew Long

Published in: Journal of Materials Science | Issue 3/2015

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Abstract

Three-dimensional (3D) woven textiles, including orthogonal and angle-interlock woven fabrics, exhibit high inter-laminar strength in addition to good in-plane mechanical properties and are particularly suitable for lightweight structural applications. Resin transfer moulding (RTM) is a cost-effective manufacturing process for composites with 3D-woven reinforcement. With increasing preform thickness, the influence of through-thickness permeability on RTM processing of composites becomes increasingly significant. This study proposes an analytical model for prediction of the through-thickness permeability, based on Poiseuille’s law for hydraulic ducts approximating realistic flow channel geometries in woven fabrics. The model is applied to four 3D-woven fabrics and three 2D-woven fabrics. The geometrical parameters of the fabrics were characterized by employing optical microscopy. For validation, the through-thickness permeability was determined experimentally. The equivalent permeability of inter-yarn gaps was found to account for approximately 90 % of the through-thickness permeability for the analysed fabrics. The analytical predictions agree well with the experimental data of the seven fabrics.

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Title: Through-thickness permeability study of orthogonal and angle-interlock woven fabrics
Authors: Xueliang Xiao
Andreas Endruweit
Xuesen Zeng
Jinlian Hu
Andrew Long
Publication date: 01-02-2015
Publisher: Springer US
Published in: Journal of Materials Science / Issue 3/2015
Print ISSN: 0022-2461
Electronic ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-014-8683-4

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