Optical Permeability Measurement on Tubular Braided Reinforcing Textiles

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Optical Permeability Measurement on Tubular Braided Reinforcing Textiles. / Schillfahrt, Christian; Fauster, Ewald; Schledjewski, Ralf.
Proceedings of the 20th International Conference on Composite Materials. 2015. 3406-2.

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Schillfahrt, C, Fauster, E & Schledjewski, R 2015, Optical Permeability Measurement on Tubular Braided Reinforcing Textiles. in Proceedings of the 20th International Conference on Composite Materials., 3406-2, 20th International Conference on Composite Materials (ICCM20), Copenhagen, Dänemark, 19/07/15.

APA

Schillfahrt, C., Fauster, E., & Schledjewski, R. (2015). Optical Permeability Measurement on Tubular Braided Reinforcing Textiles. In Proceedings of the 20th International Conference on Composite Materials Artikel 3406-2

Vancouver

Schillfahrt C, Fauster E, Schledjewski R. Optical Permeability Measurement on Tubular Braided Reinforcing Textiles. in Proceedings of the 20th International Conference on Composite Materials. 2015. 3406-2

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@inproceedings{586b1121e6444a8c9b4c10dacead5b77,
title = "Optical Permeability Measurement on Tubular Braided Reinforcing Textiles",
abstract = "The increasing importance of liquid composite molding (LCM) techniques in the composites industry requires the development of adequate methods for characterizing the permeability of reinforcing textiles. This enables the comparison of flow simulations with real impregnation experiments as well as the prediction of the impregnation behavior for industrial applications. For flat fiber reinforcements numerous approaches for one- or multidimensional RTM-based permeability measurements are known. However, permeability characterization of tubular braidings used for infusion-based bladder inflation molding (BIM/RTM) requires the development of an alternative concept.In this work, a novel approach for measuring the one-dimensional unsaturated in-plane permeability of tubular braided textiles is introduced. The approach involves a robust mechanical setup, an industrial camera system and a fully automated testing procedure with specifically developed digital image processing algorithms. This enables the automatic detection of the advancing fluid flow front during testing at a high level of repeatability. As the impregnation behavior of the braided sleevings predominantly shows unidirectional characteristics, the permeability is evaluated by using the one-dimensional form of Darcy{\textquoteright}s equation for steady state flow in a porous medium.The infusion-based bladder inflation molding process is influenced by various process parameters. The compaction pressure during impregnation, which primarily depends on the ratio between injection pressure and internal bladder pressure, is one of the most crucial parameters because it severely affects both laminate quality and fiber volume content. In this paper, the results of measurements investigating the influence of the compaction pressure as well as the interdependence of bladder and injection pressure on the in-plane permeability of a biaxial braided carbon sleeving are presented. The analysis shows that an increasing compaction pressure significantly reduces the textile permeability, while a minimum compaction of the preform should be maintained to avoid unwanted effects such as fiber washout and overfilling of the preform.",
keywords = "Braiding, Permeability, Bladder inflation molding, Resin transfer molding, Process monitoring",
author = "Christian Schillfahrt and Ewald Fauster and Ralf Schledjewski",
year = "2015",
month = jul,
language = "English",
booktitle = "Proceedings of the 20th International Conference on Composite Materials",
note = "20th International Conference on Composite Materials (ICCM20) ; Conference date: 19-07-2015 Through 24-07-2015",

}

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TY - GEN

T1 - Optical Permeability Measurement on Tubular Braided Reinforcing Textiles

AU - Schillfahrt, Christian

AU - Fauster, Ewald

AU - Schledjewski, Ralf

PY - 2015/7

Y1 - 2015/7

N2 - The increasing importance of liquid composite molding (LCM) techniques in the composites industry requires the development of adequate methods for characterizing the permeability of reinforcing textiles. This enables the comparison of flow simulations with real impregnation experiments as well as the prediction of the impregnation behavior for industrial applications. For flat fiber reinforcements numerous approaches for one- or multidimensional RTM-based permeability measurements are known. However, permeability characterization of tubular braidings used for infusion-based bladder inflation molding (BIM/RTM) requires the development of an alternative concept.In this work, a novel approach for measuring the one-dimensional unsaturated in-plane permeability of tubular braided textiles is introduced. The approach involves a robust mechanical setup, an industrial camera system and a fully automated testing procedure with specifically developed digital image processing algorithms. This enables the automatic detection of the advancing fluid flow front during testing at a high level of repeatability. As the impregnation behavior of the braided sleevings predominantly shows unidirectional characteristics, the permeability is evaluated by using the one-dimensional form of Darcy’s equation for steady state flow in a porous medium.The infusion-based bladder inflation molding process is influenced by various process parameters. The compaction pressure during impregnation, which primarily depends on the ratio between injection pressure and internal bladder pressure, is one of the most crucial parameters because it severely affects both laminate quality and fiber volume content. In this paper, the results of measurements investigating the influence of the compaction pressure as well as the interdependence of bladder and injection pressure on the in-plane permeability of a biaxial braided carbon sleeving are presented. The analysis shows that an increasing compaction pressure significantly reduces the textile permeability, while a minimum compaction of the preform should be maintained to avoid unwanted effects such as fiber washout and overfilling of the preform.

AB - The increasing importance of liquid composite molding (LCM) techniques in the composites industry requires the development of adequate methods for characterizing the permeability of reinforcing textiles. This enables the comparison of flow simulations with real impregnation experiments as well as the prediction of the impregnation behavior for industrial applications. For flat fiber reinforcements numerous approaches for one- or multidimensional RTM-based permeability measurements are known. However, permeability characterization of tubular braidings used for infusion-based bladder inflation molding (BIM/RTM) requires the development of an alternative concept.In this work, a novel approach for measuring the one-dimensional unsaturated in-plane permeability of tubular braided textiles is introduced. The approach involves a robust mechanical setup, an industrial camera system and a fully automated testing procedure with specifically developed digital image processing algorithms. This enables the automatic detection of the advancing fluid flow front during testing at a high level of repeatability. As the impregnation behavior of the braided sleevings predominantly shows unidirectional characteristics, the permeability is evaluated by using the one-dimensional form of Darcy’s equation for steady state flow in a porous medium.The infusion-based bladder inflation molding process is influenced by various process parameters. The compaction pressure during impregnation, which primarily depends on the ratio between injection pressure and internal bladder pressure, is one of the most crucial parameters because it severely affects both laminate quality and fiber volume content. In this paper, the results of measurements investigating the influence of the compaction pressure as well as the interdependence of bladder and injection pressure on the in-plane permeability of a biaxial braided carbon sleeving are presented. The analysis shows that an increasing compaction pressure significantly reduces the textile permeability, while a minimum compaction of the preform should be maintained to avoid unwanted effects such as fiber washout and overfilling of the preform.

KW - Braiding

KW - Permeability

KW - Bladder inflation molding

KW - Resin transfer molding

KW - Process monitoring

UR - http://www.iccm20.org

M3 - Conference contribution

BT - Proceedings of the 20th International Conference on Composite Materials

T2 - 20th International Conference on Composite Materials (ICCM20)

Y2 - 19 July 2015 through 24 July 2015

ER -