A new ISO standard for the experimental characterization of in-plane permeability of fibrous reinforcements
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In: Composites Part A: Applied Science and Manufacturing, Vol. 190.2025, No. March, 108592, 20.11.2024.
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TY - JOUR
T1 - A new ISO standard for the experimental characterization of in-plane permeability of fibrous reinforcements
AU - May, David
AU - Advani, S. G.
AU - Duhovic, M.
AU - Endruweit, Andreas
AU - Fauster, Ewald
AU - George, Andrew
AU - Liotier, P. J.
AU - Lira, Cristian
AU - Lomov, S. V.
AU - Pucci, M. F.
AU - Schmeer, S.
AU - Abliz, D.
AU - Berg, David C.
AU - Binetruy, C.
AU - Bodaghi, M.
AU - Comas-Cardona, S.
AU - Etchells, Matt
AU - Govignon, Q.
AU - Koorevaar, Arjen
AU - Michaud, V.
AU - Park, C. H.
AU - Schubnel, R.
AU - Sousa, P.
AU - Ravel, R.
AU - Rouhi, M.
AU - Syerko, E.
AU - Umer, R.
AU - Vollmer, M.
AU - Yong, A.
PY - 2024/11/20
Y1 - 2024/11/20
N2 - During Liquid Composite Molding, a fibrous reinforcement is impregnated with liquid resin. Process design requires knowledge of the reinforcement permeability for fluid flow, but until recently, there has been no standard available for its measurement. In 2023, following decades of benchmarking activities and a standardization project, an ISO standard for the experimental characterization of in-plane permeability of fibrous reinforcements for liquid composite molding was finally published. It focuses on the experimental characterization of unsaturated in-plane permeability and specifies the requirements for test equipment, methods and data analysis. Given the deficiency of standardized procedures within the composites industry, this paper intends to provide an example of the steps towards standardization and summarizes lessons learned. It illustrates the research milestones that led to the establishment of the standard, promotes the standard by detailing its general content and notable features and finally gives explanations and reasoning behind the developed guidelines.
AB - During Liquid Composite Molding, a fibrous reinforcement is impregnated with liquid resin. Process design requires knowledge of the reinforcement permeability for fluid flow, but until recently, there has been no standard available for its measurement. In 2023, following decades of benchmarking activities and a standardization project, an ISO standard for the experimental characterization of in-plane permeability of fibrous reinforcements for liquid composite molding was finally published. It focuses on the experimental characterization of unsaturated in-plane permeability and specifies the requirements for test equipment, methods and data analysis. Given the deficiency of standardized procedures within the composites industry, this paper intends to provide an example of the steps towards standardization and summarizes lessons learned. It illustrates the research milestones that led to the establishment of the standard, promotes the standard by detailing its general content and notable features and finally gives explanations and reasoning behind the developed guidelines.
KW - Fabrics/textiles
KW - Permeability
KW - Process Modeling
KW - Resin transfer molding
KW - Resin flow
U2 - 10.1016/j.compositesa.2024.108592
DO - 10.1016/j.compositesa.2024.108592
M3 - Article
VL - 190.2025
JO - Composites Part A: Applied Science and Manufacturing
JF - Composites Part A: Applied Science and Manufacturing
SN - 1359-835X
IS - March
M1 - 108592
ER -