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Experimental characterization of flutter and LCO of a very flexible wing

Experimental characterization of flutter and LCO of a very flexible wing
Experimental characterization of flutter and LCO of a very flexible wing
The present study presents intermediate results obtained in a wind tunnel campaign aimed at characterising the LCO of the PAZY wing, a wind tunnel model designed to exhibit large elastic deflections. The measurements carried out at ``La Sapienza'' wind tunnel allowed a complete identification of the flutter mechanism at various angles of attack: operational modal analysis (OMA) methods made possible this experimental characterization of the flutter and LCO conditions of the PAZY wing model because these methods allow the estimate of the natural frequencies, damping ratios, and mode shapes, at the different wind tunnel speeds and angles of attack. This allowed an accurate tracking of the evolution of the aeroelastic poles as a function of the airflow speed. The results confirmed that the flutter mechanism involves the second bending and the first torsional modes and that the flutter speed is strongly affected by the aeroelastic-static deflection of the wing. Measurements carried out at ZHAW wind tunnel showed qualitatively similar LCO, whereas additional experiments are necessary to complete the modes identification and still outstanding at time of submission. The stability boundaries observed in the two wind tunnels are also in good agreement between each other and with the analytical model the authors developed for the Third Aeroelastic Workshop in January 2023.
American Institute of Aeronautics and Astronautics
Righi, Marcello
e3997eb5-41c9-47a0-90ec-d6f97b0cf60b
Coppotelli, Giuliano
23e8a283-f130-4d98-9204-78912c29c0ef
Immordino, Gabriele
ed9626cc-aa2b-40be-b376-0868967e5e65
Da Ronch, Andrea
a2f36b97-b881-44e9-8a78-dd76fdf82f1a
Onofri, Ludovica
dceadd9a-a179-4005-be18-fb1c44664dfc
Sbarra, Roberto
7f6ff178-e379-4ece-ab22-57cf4a589b8b
Romano, Giampaolo
440028ac-884f-430d-977e-a98aefe79bd5
Righi, Marcello
e3997eb5-41c9-47a0-90ec-d6f97b0cf60b
Coppotelli, Giuliano
23e8a283-f130-4d98-9204-78912c29c0ef
Immordino, Gabriele
ed9626cc-aa2b-40be-b376-0868967e5e65
Da Ronch, Andrea
a2f36b97-b881-44e9-8a78-dd76fdf82f1a
Onofri, Ludovica
dceadd9a-a179-4005-be18-fb1c44664dfc
Sbarra, Roberto
7f6ff178-e379-4ece-ab22-57cf4a589b8b
Romano, Giampaolo
440028ac-884f-430d-977e-a98aefe79bd5

Righi, Marcello, Coppotelli, Giuliano, Immordino, Gabriele, Da Ronch, Andrea, Onofri, Ludovica, Sbarra, Roberto and Romano, Giampaolo (2024) Experimental characterization of flutter and LCO of a very flexible wing. In AIAA Scitech 2024 Forum. American Institute of Aeronautics and Astronautics.. (doi:10.2514/6.2024-0831).

Record type: Conference or Workshop Item (Paper)

Abstract

The present study presents intermediate results obtained in a wind tunnel campaign aimed at characterising the LCO of the PAZY wing, a wind tunnel model designed to exhibit large elastic deflections. The measurements carried out at ``La Sapienza'' wind tunnel allowed a complete identification of the flutter mechanism at various angles of attack: operational modal analysis (OMA) methods made possible this experimental characterization of the flutter and LCO conditions of the PAZY wing model because these methods allow the estimate of the natural frequencies, damping ratios, and mode shapes, at the different wind tunnel speeds and angles of attack. This allowed an accurate tracking of the evolution of the aeroelastic poles as a function of the airflow speed. The results confirmed that the flutter mechanism involves the second bending and the first torsional modes and that the flutter speed is strongly affected by the aeroelastic-static deflection of the wing. Measurements carried out at ZHAW wind tunnel showed qualitatively similar LCO, whereas additional experiments are necessary to complete the modes identification and still outstanding at time of submission. The stability boundaries observed in the two wind tunnels are also in good agreement between each other and with the analytical model the authors developed for the Third Aeroelastic Workshop in January 2023.

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More information

Published date: 4 January 2024
Venue - Dates: AIAA SciTech Forum and Exposition, 2024, , Orlando, United States, 2024-01-08 - 2024-01-12

Identifiers

Local EPrints ID: 495393
URI: http://eprints.soton.ac.uk/id/eprint/495393
DOI: doi:10.2514/6.2024-0831
PURE UUID: 38796edf-a17b-4648-bbc8-1e5306c38f76
ORCID for Andrea Da Ronch: ORCID iD orcid.org/0000-0001-7428-6935

Catalogue record

Date deposited: 12 Nov 2024 17:55
Last modified: 13 Nov 2024 02:46

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Contributors

Author: Marcello Righi
Author: Giuliano Coppotelli
Author: Gabriele Immordino
Author: Andrea Da Ronch ORCID iD
Author: Ludovica Onofri
Author: Roberto Sbarra
Author: Giampaolo Romano

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