Journal Articles Composites Part A: Applied Science and Manufacturing Year : 2019

In-plane permeability characterization of engineering textiles based on radial flow experiments: A benchmark exercise

D. May
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A. Aktas
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S.G. Advani
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D.C. Berg
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A. Endruweit
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E. Fauster
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A. Long
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  • PersonId : 848540
P. Mitschang
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S. Abaimov
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D. Abliz
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I. Akhatov
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M.A. Ali
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T.D. Allen
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M. Bodaghi
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B. Caglar
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H. Caglar
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A. Chiminelli
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N. Correia
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M. Danzi
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J. Dittmann
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G. Francucci
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A. George
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V. Grishaev
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M. Hancioglu
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M.A. Kabachi
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K. Kind
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M. Deléglise-Lagardère
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M. Laspalas
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O.V. Lebedev
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M. Lizaranzu
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P. Middendorf
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J. Morán
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C.-H. Park
R.B. Pipes
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J. Raynal
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  • PersonId : 841582
E.S. Rodriguez
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R. Schledjewski
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R. Schubnel
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N. Sharp
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G. Sims
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E.M. Sozer
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J. Thomas
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R. Umer
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W. Wijaya
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B. Willenbacher
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A. Yong
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S. Zaremba
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G. Ziegmann
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Abstract

Although good progress was made by two international benchmark exercises on in-plane permeability, existing methods have not yet been standardized. This paper presents the results of a third benchmark exercise using in-plane permeability measurement, based on systems applying the radial unsaturated injection method. 19 participants using 20 systems characterized a non-crimp and a woven fabric at three different fiber volume contents, using a commercially available silicone oil as impregnating fluid. They followed a detailed characterization procedure and also completed a questionnaire on their set-up and analysis methods. Excluding outliers (2 of 20), the average coefficient of variation (cv) between the participant’s results was 32% and 44% (non-crimp and woven fabric), while the average cv for individual participants was 8% and 12%, respectively. This indicates statistically significant variations between the measurement systems. Cavity deformation was identified as a major influence, besides fluid pressure/viscosity measurement, textile variations, and data analysis.
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Dates and versions

hal-02429024 , version 1 (13-08-2020)

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D. May, A. Aktas, S.G. Advani, D.C. Berg, A. Endruweit, et al.. In-plane permeability characterization of engineering textiles based on radial flow experiments: A benchmark exercise. Composites Part A: Applied Science and Manufacturing, 2019, 121, pp.100-114. ⟨10.1016/j.compositesa.2019.03.006⟩. ⟨hal-02429024⟩
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