On the Challenges of Upscaling Damage Monitoring Methodologies for Stiffened Composite Aircraft Panels

Agnes A.R.  Broer; N. Yue; Georgios Galanopoulos; R. Benedictus; Theodoros Loutas; D. Zarouchas

doi:10.12783/shm2021/36237

On the Challenges of Upscaling Damage Monitoring Methodologies for Stiffened Composite Aircraft Panels

Agnes A.R. Broer^*, N. Yue, Georgios Galanopoulos, R. Benedictus, Theodoros Loutas, D. Zarouchas

^*Corresponding author for this work

Structural Integrity & Composites

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

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Abstract

Health management methodologies for condition-based maintenance are often developed using sensor data collected during experimental tests. Most tests performed in laboratories focus on a coupon level or flat panels, while structural component testing is less commonly seen. As researchers, we often consider our experimental tests to be representative of a structure in a final application and consider the developed methodologies to be transferrable to these real-life structures. Yet, structures in their final applications such as wind turbines or aircraft are often larger, more complex, might contain various assembly details, and are loaded in complex conditions. These factors might influence the performance of developed diagnostic and prognostic methodologies and should therefore not be ignored.

In our work, we consider the aspects of upscaling structural health monitoring (SHM) methodologies for stiffened composite panels with the design of the panels inspired by an aircraft wing structure. For this, we examine two levels of panels, namely a single- and multi-stiffener composite panel, where we consider the single-stiffener panel to be a representative lower-level version of the multi-stiffener panel. Multiple SHM sensors (acoustic emission, Lamb waves, strain sensing) were installed on both composite panels to monitor damage propagation during testing. We identify and analyse challenges and further discuss considerations that must be taken during upscaling of diagnostics and prognostics, and with that, aid in the development of health management methodologies for condition-based maintenance.

Original language	English
Title of host publication	Structural Health Monitoring 2021
Subtitle of host publication	Enabling Next-generation SHM for Cyber-Physical Systems
Editors	Saman Farhangdoust, Alfredo Guemes, Fu-Kuo Chang
Place of Publication	Lancaster, Pennsylvania, United States
Publisher	DEStech Publications Inc.
Chapter	Aerospace Structures
Pages	29-36
Number of pages	8
ISBN (Print)	978-1-60595-687-9
DOIs	https://doi.org/10.12783/shm2021/36237
Publication status	Published - 2022
Event	13th International Workshop on Structural Health Monitoring 2021: Enabling Next-generation SHM for Cyber-Physical Systems - Stanford University, Stanford, United States Duration: 15 Mar 2022 → 17 Mar 2022 https://iwshm2021.sites.stanford.edu/

Conference

Conference	13th International Workshop on Structural Health Monitoring 2021: Enabling Next-generation SHM for Cyber-Physical Systems
Abbreviated title	IWSHM 2021
Country/Territory	United States
City	Stanford
Period	15/03/22 → 17/03/22
Internet address	https://iwshm2021.sites.stanford.edu/

Bibliographical note

Green Open Access added to TU Delft Institutional Repository ‘You share, we take care!’ – Taverne project https://www.openaccess.nl/en/you-share-we-take-care
Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public.

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10.12783/shm2021/36237

IWSHM2021_BroeretalFinal published version, 681 KB

ReMAP: Real-time Condition-based Maintenance for Adaptive Aircraft Maintenance Planning
Santos, B. F., Zarouchas, D., Mitici, M. A., Verhagen, W. J. C., Mechbal, N., Rébillat, M., Guskov, M., Bieber, P., Olive, X., Ghosh, A., Chabukswar, R., Couto, L., Ribeiro, B., Cardoso, A., Machado, P., Dourado, A., Arrais, J. P., Silva, C., Roque, L., Loutas, T., Kostopoulos, V. & Sotiriadis, G.
1/06/22 → 31/08/22
Project: Research

Cite this

Broer, A. A. R., Yue, N., Galanopoulos, G., Benedictus, R., Loutas, T., & Zarouchas, D. (2022). On the Challenges of Upscaling Damage Monitoring Methodologies for Stiffened Composite Aircraft Panels. In S. Farhangdoust, A. Guemes, & F.-K. Chang (Eds.), Structural Health Monitoring 2021: Enabling Next-generation SHM for Cyber-Physical Systems (pp. 29-36). DEStech Publications Inc.. https://doi.org/10.12783/shm2021/36237

Broer, Agnes A.R. ; Yue, N. ; Galanopoulos, Georgios et al. / On the Challenges of Upscaling Damage Monitoring Methodologies for Stiffened Composite Aircraft Panels. Structural Health Monitoring 2021: Enabling Next-generation SHM for Cyber-Physical Systems. editor / Saman Farhangdoust ; Alfredo Guemes ; Fu-Kuo Chang. Lancaster, Pennsylvania, United States : DEStech Publications Inc., 2022. pp. 29-36

@inproceedings{87b86bc39a744deb9c5937e0c82dca9f,

title = "On the Challenges of Upscaling Damage Monitoring Methodologies for Stiffened Composite Aircraft Panels",

abstract = "Health management methodologies for condition-based maintenance are often developed using sensor data collected during experimental tests. Most tests performed in laboratories focus on a coupon level or flat panels, while structural component testing is less commonly seen. As researchers, we often consider our experimental tests to be representative of a structure in a final application and consider the developed methodologies to be transferrable to these real-life structures. Yet, structures in their final applications such as wind turbines or aircraft are often larger, more complex, might contain various assembly details, and are loaded in complex conditions. These factors might influence the performance of developed diagnostic and prognostic methodologies and should therefore not be ignored.In our work, we consider the aspects of upscaling structural health monitoring (SHM) methodologies for stiffened composite panels with the design of the panels inspired by an aircraft wing structure. For this, we examine two levels of panels, namely a single- and multi-stiffener composite panel, where we consider the single-stiffener panel to be a representative lower-level version of the multi-stiffener panel. Multiple SHM sensors (acoustic emission, Lamb waves, strain sensing) were installed on both composite panels to monitor damage propagation during testing. We identify and analyse challenges and further discuss considerations that must be taken during upscaling of diagnostics and prognostics, and with that, aid in the development of health management methodologies for condition-based maintenance.",

author = "Broer, {Agnes A.R.} and N. Yue and Georgios Galanopoulos and R. Benedictus and Theodoros Loutas and D. Zarouchas",

note = "Green Open Access added to TU Delft Institutional Repository {\textquoteleft}You share, we take care!{\textquoteright} – Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public. ; 13th International Workshop on Structural Health Monitoring 2021: Enabling Next-generation SHM for Cyber-Physical Systems, IWSHM 2021 ; Conference date: 15-03-2022 Through 17-03-2022",

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Broer, AAR , Yue, N, Galanopoulos, G, Benedictus, R, Loutas, T & Zarouchas, D 2022, On the Challenges of Upscaling Damage Monitoring Methodologies for Stiffened Composite Aircraft Panels. in S Farhangdoust, A Guemes & F-K Chang (eds), Structural Health Monitoring 2021: Enabling Next-generation SHM for Cyber-Physical Systems. DEStech Publications Inc., Lancaster, Pennsylvania, United States, pp. 29-36, 13th International Workshop on Structural Health Monitoring 2021: Enabling Next-generation SHM for Cyber-Physical Systems, Stanford, California, United States, 15/03/22. https://doi.org/10.12783/shm2021/36237

On the Challenges of Upscaling Damage Monitoring Methodologies for Stiffened Composite Aircraft Panels. / Broer, Agnes A.R. ; Yue, N.; Galanopoulos, Georgios et al.
Structural Health Monitoring 2021: Enabling Next-generation SHM for Cyber-Physical Systems. ed. / Saman Farhangdoust; Alfredo Guemes; Fu-Kuo Chang. Lancaster, Pennsylvania, United States: DEStech Publications Inc., 2022. p. 29-36.

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

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AU - Broer, Agnes A.R.

AU - Yue, N.

AU - Galanopoulos, Georgios

AU - Benedictus, R.

AU - Loutas, Theodoros

AU - Zarouchas, D.

N1 - Green Open Access added to TU Delft Institutional Repository ‘You share, we take care!’ – Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public.

PY - 2022

Y1 - 2022

N2 - Health management methodologies for condition-based maintenance are often developed using sensor data collected during experimental tests. Most tests performed in laboratories focus on a coupon level or flat panels, while structural component testing is less commonly seen. As researchers, we often consider our experimental tests to be representative of a structure in a final application and consider the developed methodologies to be transferrable to these real-life structures. Yet, structures in their final applications such as wind turbines or aircraft are often larger, more complex, might contain various assembly details, and are loaded in complex conditions. These factors might influence the performance of developed diagnostic and prognostic methodologies and should therefore not be ignored.In our work, we consider the aspects of upscaling structural health monitoring (SHM) methodologies for stiffened composite panels with the design of the panels inspired by an aircraft wing structure. For this, we examine two levels of panels, namely a single- and multi-stiffener composite panel, where we consider the single-stiffener panel to be a representative lower-level version of the multi-stiffener panel. Multiple SHM sensors (acoustic emission, Lamb waves, strain sensing) were installed on both composite panels to monitor damage propagation during testing. We identify and analyse challenges and further discuss considerations that must be taken during upscaling of diagnostics and prognostics, and with that, aid in the development of health management methodologies for condition-based maintenance.

AB - Health management methodologies for condition-based maintenance are often developed using sensor data collected during experimental tests. Most tests performed in laboratories focus on a coupon level or flat panels, while structural component testing is less commonly seen. As researchers, we often consider our experimental tests to be representative of a structure in a final application and consider the developed methodologies to be transferrable to these real-life structures. Yet, structures in their final applications such as wind turbines or aircraft are often larger, more complex, might contain various assembly details, and are loaded in complex conditions. These factors might influence the performance of developed diagnostic and prognostic methodologies and should therefore not be ignored.In our work, we consider the aspects of upscaling structural health monitoring (SHM) methodologies for stiffened composite panels with the design of the panels inspired by an aircraft wing structure. For this, we examine two levels of panels, namely a single- and multi-stiffener composite panel, where we consider the single-stiffener panel to be a representative lower-level version of the multi-stiffener panel. Multiple SHM sensors (acoustic emission, Lamb waves, strain sensing) were installed on both composite panels to monitor damage propagation during testing. We identify and analyse challenges and further discuss considerations that must be taken during upscaling of diagnostics and prognostics, and with that, aid in the development of health management methodologies for condition-based maintenance.

U2 - 10.12783/shm2021/36237

DO - 10.12783/shm2021/36237

M3 - Conference contribution

SN - 978-1-60595-687-9

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BT - Structural Health Monitoring 2021

A2 - Farhangdoust, Saman

A2 - Guemes, Alfredo

A2 - Chang, Fu-Kuo

PB - DEStech Publications Inc.

CY - Lancaster, Pennsylvania, United States

T2 - 13th International Workshop on Structural Health Monitoring 2021: Enabling Next-generation SHM for Cyber-Physical Systems

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ER -

Broer AAR , Yue N, Galanopoulos G, Benedictus R, Loutas T, Zarouchas D. On the Challenges of Upscaling Damage Monitoring Methodologies for Stiffened Composite Aircraft Panels. In Farhangdoust S, Guemes A, Chang FK, editors, Structural Health Monitoring 2021: Enabling Next-generation SHM for Cyber-Physical Systems. Lancaster, Pennsylvania, United States: DEStech Publications Inc. 2022. p. 29-36 doi: 10.12783/shm2021/36237

On the Challenges of Upscaling Damage Monitoring Methodologies for Stiffened Composite Aircraft Panels

Abstract

Conference

Bibliographical note

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Projects

ReMAP: Real-time Condition-based Maintenance for Adaptive Aircraft Maintenance Planning

Cite this