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Aircraft of the future

Researchers conduct first real-time flutter analysis

12 October 2018

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  • Flügel%2dModell im Windkanal
    Wing model in the wind tunnel

    The real-time flutter analysis was performed in the high-speed channel (HST,
    High-speed tunnel) of the DNW in Amsterdam.

  • Progress in exploring future aircraft
  • Flutter analysis possible in real time
  • Focus: Aviation, digitalisation

The aircraft manufacturer Embraer, the German Aerospace Center (Deutsches Zentrum für Luft- und Raumfahrt; DLR), the Netherlands Aerospace Centre (NLR) and German–Dutch Wind Tunnels (DNW) have succeeded in testing an innovative method for examining the safety of future aircraft. In another first, they have been able to analyse the flutter behaviour of a wing in real time.

Aeroelastics and flutter

Aircraft are lightweight constructions that are not rigid but elastic. Future aircraft will be even lighter and more flexible, but this means that the occurrence of vibrations will become increasingly significant. The complex interaction between elastic vibrations has an influence on the aircraft's flight characteristics. The best-known aeroelastic phenomenon is 'flutter', where the vibrations of an aircraft structure interact with the surrounding airflow in such a way that their amplitudes increase rapidly. To prevent this from occurring and to avoid critical flight conditions, flutter analyses must be performed.

Wind tunnel test

A highly elastic fibreglass wing model, that is able to deform extensively, was constructed for the experiment. A large number of pressure sensors and strain gauges was installed on the wing. The wing was tested from Mach 0.7 to Mach 0.9 (corresponding to air speeds of approximately 850 to 1100 kilometres per hour) for different angles of attack. The researchers monitored the vibrations of the wing model and used a new method to analyse its eigenfrequencies and damping ratios. In the past, the large amounts of data acquired during such experiments could only be evaluated with a time lag. An efficient method developed by DLR now allows to perform the data analysis in real time. As a result, it was possible during the test to identify exactly which safety margins remained before the onset of flutter and the resulting possible destruction of the model. "This is a brand new method to analyse aircraft flutter," said Yves Govers of the DLR Institute of Aeroelasticity. It should also allow future aircraft to be tested more efficiently and more quickly.

Work share

The Brazilian aircraft manufacturer Embraer initiated the HMAE1 project to test its numerical predictions for wing flutter and to make future flutter analysis more efficient. The DLR Institute of Aeroelasticity in Göttingen and NLR joined forces for a pre-design of a wind tunnel model tailored to the surface geometry of the wing in order to meet the requirements. Detailed design of the glassfiber wing itself and the pylon-wing connection was performed by NLR,  who also built the wing  and created the model's built-in measurement technology.

DNW was predominantly responsible for test preparation and test execution. The actual wind tunnel test was carried out at DNW's High-Speed Tunnel (HST) in Amsterdam, using the NLR designed and manufactured wind tunnel model, with DLR conducting the data analysis in real time.

DLR video: Aeroelasticity or why aircraft are elastic

Last modified:
19/10/2018 13:38:36

Contacts

 

Jens Wucherpfennig
German Aerospace Center (DLR)

Tel.: +49 551 709-2108

Fax: +49 551 709-12108
Dr.-Ing. Yves Govers
German Aerospace Center (DLR)

Department of Structural Dynamics and Aeroelastic System Identification

Tel.: +49 551 709-2288

Fax: +49 551 709-2862
Dr Holger Mai
German Aerospace Center (DLR)

DLR Institute of Aeroelasticity

Tel.: +49 551 709-2481

Fax: +49 551 709-2862
Dr Allan Pereira
Embraer

Aeronautics R&D

Tel.: +55 12 3927-2794
Remco Habing
DNW

Business Unit LLF/AM; Projects and Customer Relation Management

Tel.: +31 527 24-8554
Evert Geurts
NLR

Helicopters & Aeroacoustics