Fusion of SHM techniques for synergetic degradation monitoring of composite aircraft wing structure under compression fatigue
Communication sans acte
Auteur
Date
2022-05Résumé
In the pursue of smart structures for cyber-physical health management of lightweight engineering structures, a number of structural health monitoring methods have been developed. Each SHM technique has different coverage and sensitivity to certain types of damage. In particular, the structural degradation of composites under fatigue loading is multi-causal and intricate, and none of the techniques alone is able to fully capture the fatigue degradation phenomenon. This paper presents the considerations and results in a fusing strategy of two different SHM techniques, distributed optical strain sensing and guided wave, on the in-situ monitoring of an aircraft wing structure under compression-compression fatigue loading. The emergence and growth of localized damage (disbond of stiffener foot) and the degradation of mechanical performance (stiffness degradation) caused by the accumulation of distributed fatigue damage have been monitored in the synergy of the two different SHM techniques. The result shows that the fusion strategy unveils the fatigue degradation phenomenon in a more extensive manner than using two techniques separately.
Fichier(s) constituant cette publication
- Nom:
- PIMM_ICCBMA22_2022_REBILLAT.pdf
- Taille:
- 258.9Ko
- Format:
- Description:
- Fusion of SHM techniques for ...
- Fin d'embargo:
- 2022-11-20
Cette publication figure dans le(s) laboratoire(s) suivant(s)
Documents liés
Visualiser des documents liés par titre, auteur, créateur et sujet.
-
Article dans une revue avec comité de lectureYUE, Nan; BROER, Agnes; BRIAND, William; RÉBILLAT, Marc; LOUTAS, Theodoros; ZAROUCHAS, Dimitrios (Elsevier BV, 2022-08)The application of structural health monitoring (SHM) in composite airframe structural elements under long- term realistic fatigue loading needs to consider the structural behavior on the global level, which is an intri- ...
-
Communication avec acteBRIAND, William; MECHBAL, Nazih; GUSKOV, Mikhail; RÉBILLAT, Marc (A. Benjeddou, N. Mechbal and J.F. De¨u, 2019)Thanks to their high strength to mass ratio, composite materials are now widespread in the aerospace industry. Nevertheless, this type of material is subject to various internal damages and it is mandatory to monitor in ...
-
Communication avec acteThanks to their high strength to mass ratio, composite materials are now widespread in the aerospace industry. Nevertheless, this type of material is sub- ject to internal damages like delamination. In order to detect and ...
-
Communication avec acteLIEGEY, Julie; BRIAND, William; RÉBILLAT, Marc; EL MAY, Mohamed; DEVOS, Olivier; MECHBAL, Nazih (Springer, 2022-07-04)Corrosion is a major concern for the aeronautic industry and providing structures with the intrinsic ability to monitor autonomously their health state is a major actual academic and industrial challenge. In this paper, ...
-
Communication avec acteBRIAND, William; RÉBILLAT, Marc; MECHBAL, Nazih; GUSKOV, Mikhail (Springer International Publishing, 2022-06)Corrosion is a major concern for the aeronautic industry and providing structures with the intrinsic ability to monitor autonomously their health state is a major actual academic and industrial challenge. In this paper, ...