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Design of flat optical fiber sensor for triaxial strain monitoring in composite laminates

Design of flat optical fiber sensor for triaxial strain monitoring in composite laminates
Design of flat optical fiber sensor for triaxial strain monitoring in composite laminates

A fiber Bragg gratings sensor based on a novel flat optical fiber is designed for through-thickness, in-plane and tensile strains monitoring within unidirectional carbon fiber reinforced polymer laminates. An opto-mechanical investigation based on finite element method is carried out. The behavior of the embedded optical fiber and the composite material is simulated through a multiphysical model. The electromagnetic investigation is focused on the effect of the birefringence induced by the axial stresses on the propagation modes. The Bragg wavelength shift and the triaxial strain sensitivities are derived by considering transfer matrix method based on the coupled mode theory. A refined design of the flat fiber with a thinned asymmetric cladding is performed to obtain two different strain transfers between the sensing regions, improving the discrimination of triaxial strains. Moreover, the advantages of the designed optical fiber sensor with respect to standard optical fibers are discussed, paving the way for future developments.

composite material, flat fiber, grating, optical fiber
IEEE
Annunziato, Andrea
0a4758bf-b20a-4220-a930-3cc3c6e21320
Anelli, Francesco
5da88525-6c26-41eb-b9b6-04b561cad8bc
Godfrey, Michael
f7811099-7bfe-4095-ae3f-d5e7f907b4d0
Barton, Janice M.
9e35bebb-2185-4d16-a1bc-bb8f20e06632
Holmes, Christopher
2ec659eb-2bd3-460a-aa8d-5538eb1aeb25
Prudenzano, Francesco
a650c97a-97ca-4791-b93f-dbd9ac693048
Annunziato, Andrea
0a4758bf-b20a-4220-a930-3cc3c6e21320
Anelli, Francesco
5da88525-6c26-41eb-b9b6-04b561cad8bc
Godfrey, Michael
f7811099-7bfe-4095-ae3f-d5e7f907b4d0
Barton, Janice M.
9e35bebb-2185-4d16-a1bc-bb8f20e06632
Holmes, Christopher
2ec659eb-2bd3-460a-aa8d-5538eb1aeb25
Prudenzano, Francesco
a650c97a-97ca-4791-b93f-dbd9ac693048

Annunziato, Andrea, Anelli, Francesco, Godfrey, Michael, Barton, Janice M., Holmes, Christopher and Prudenzano, Francesco (2021) Design of flat optical fiber sensor for triaxial strain monitoring in composite laminates. In 2021 AEIT International Annual Conference (AEIT). IEEE. 6 pp . (doi:10.23919/AEIT53387.2021.9626867).

Record type: Conference or Workshop Item (Paper)

Abstract

A fiber Bragg gratings sensor based on a novel flat optical fiber is designed for through-thickness, in-plane and tensile strains monitoring within unidirectional carbon fiber reinforced polymer laminates. An opto-mechanical investigation based on finite element method is carried out. The behavior of the embedded optical fiber and the composite material is simulated through a multiphysical model. The electromagnetic investigation is focused on the effect of the birefringence induced by the axial stresses on the propagation modes. The Bragg wavelength shift and the triaxial strain sensitivities are derived by considering transfer matrix method based on the coupled mode theory. A refined design of the flat fiber with a thinned asymmetric cladding is performed to obtain two different strain transfers between the sensing regions, improving the discrimination of triaxial strains. Moreover, the advantages of the designed optical fiber sensor with respect to standard optical fibers are discussed, paving the way for future developments.

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More information

Published date: 1 December 2021
Venue - Dates: 2021 AEIT International Annual Conference (AEIT 2021), , Milan, Italy, 2021-10-04 - 2021-10-08
Keywords: composite material, flat fiber, grating, optical fiber

Identifiers

Local EPrints ID: 499158
URI: http://eprints.soton.ac.uk/id/eprint/499158
DOI: doi:10.23919/AEIT53387.2021.9626867
PURE UUID: 51fa0b51-f13a-4454-95c3-06ad899f30c4

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Date deposited: 11 Mar 2025 17:32
Last modified: 11 Mar 2025 17:32

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Contributors

Author: Andrea Annunziato
Author: Francesco Anelli
Author: Michael Godfrey
Author: Janice M. Barton
Author: Christopher Holmes
Author: Francesco Prudenzano

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