Enabling RTM processing of components with varying wall thickness: Accurate transverse Permeability measurements under unsaturated flow conditions

Research output: Contribution to conferencePaperpeer-review

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Enabling RTM processing of components with varying wall thickness: Accurate transverse Permeability measurements under unsaturated flow conditions. / Konstantopoulos, Spiridon; Hergan, Patrick; Grössing, Harald et al.
2015. Paper presented at SAMPE Europe 2015, Amiens, France.

Research output: Contribution to conferencePaperpeer-review

Harvard

Konstantopoulos, S, Hergan, P, Grössing, H & Schledjewski, R 2015, 'Enabling RTM processing of components with varying wall thickness: Accurate transverse Permeability measurements under unsaturated flow conditions', Paper presented at SAMPE Europe 2015, Amiens, France, 15/09/15 - 17/09/15.

APA

Konstantopoulos, S., Hergan, P., Grössing, H., & Schledjewski, R. (2015). Enabling RTM processing of components with varying wall thickness: Accurate transverse Permeability measurements under unsaturated flow conditions. Paper presented at SAMPE Europe 2015, Amiens, France.

Vancouver

Konstantopoulos S, Hergan P, Grössing H, Schledjewski R. Enabling RTM processing of components with varying wall thickness: Accurate transverse Permeability measurements under unsaturated flow conditions. 2015. Paper presented at SAMPE Europe 2015, Amiens, France.

Author

Konstantopoulos, Spiridon ; Hergan, Patrick ; Grössing, Harald et al. / Enabling RTM processing of components with varying wall thickness: Accurate transverse Permeability measurements under unsaturated flow conditions. Paper presented at SAMPE Europe 2015, Amiens, France.

Bibtex - Download

@conference{651d7450516342b0824d5afd663ac86a,
title = "Enabling RTM processing of components with varying wall thickness: Accurate transverse Permeability measurements under unsaturated flow conditions",
abstract = "The flow behavior within fibrous preforms is of great interest for composites manufacturing due to the fact that filling defects have a significant negative impact on the structural health of the part and the production costs/time. When parts with relatively thick walls are manufactured (e.g. by RTM), the transverse flow and permeability become important. In this study a test-rig for the detection of transverse flows is developed and implemented. The central instrument of the rig is an ultrasonic transducer which allows continuous non-invasive flow front detection in a non-deflecting tool. Experimentation revealed the limitations of the system mainly related to wave attenuation but electromechanical enhancements in the rig raised these limits. The potential of the system to be used for transverse permeability calculations was demonstrated by experiments that involved ultrasound TOF measurements for woven glass and biaxial carbon NCF preforms. A model that correlates TOF with transverse flow front has been developed, implemented and visually confirmed.",
author = "Spiridon Konstantopoulos and Patrick Hergan and Harald Gr{\"o}ssing and Ralf Schledjewski",
year = "2015",
language = "English",
note = "SAMPE Europe 2015 ; Conference date: 15-09-2015 Through 17-09-2015",

}

RIS (suitable for import to EndNote) - Download

TY - CONF

T1 - Enabling RTM processing of components with varying wall thickness: Accurate transverse Permeability measurements under unsaturated flow conditions

AU - Konstantopoulos, Spiridon

AU - Hergan, Patrick

AU - Grössing, Harald

AU - Schledjewski, Ralf

PY - 2015

Y1 - 2015

N2 - The flow behavior within fibrous preforms is of great interest for composites manufacturing due to the fact that filling defects have a significant negative impact on the structural health of the part and the production costs/time. When parts with relatively thick walls are manufactured (e.g. by RTM), the transverse flow and permeability become important. In this study a test-rig for the detection of transverse flows is developed and implemented. The central instrument of the rig is an ultrasonic transducer which allows continuous non-invasive flow front detection in a non-deflecting tool. Experimentation revealed the limitations of the system mainly related to wave attenuation but electromechanical enhancements in the rig raised these limits. The potential of the system to be used for transverse permeability calculations was demonstrated by experiments that involved ultrasound TOF measurements for woven glass and biaxial carbon NCF preforms. A model that correlates TOF with transverse flow front has been developed, implemented and visually confirmed.

AB - The flow behavior within fibrous preforms is of great interest for composites manufacturing due to the fact that filling defects have a significant negative impact on the structural health of the part and the production costs/time. When parts with relatively thick walls are manufactured (e.g. by RTM), the transverse flow and permeability become important. In this study a test-rig for the detection of transverse flows is developed and implemented. The central instrument of the rig is an ultrasonic transducer which allows continuous non-invasive flow front detection in a non-deflecting tool. Experimentation revealed the limitations of the system mainly related to wave attenuation but electromechanical enhancements in the rig raised these limits. The potential of the system to be used for transverse permeability calculations was demonstrated by experiments that involved ultrasound TOF measurements for woven glass and biaxial carbon NCF preforms. A model that correlates TOF with transverse flow front has been developed, implemented and visually confirmed.

M3 - Paper

T2 - SAMPE Europe 2015

Y2 - 15 September 2015 through 17 September 2015

ER -

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