A theoretical study of a slender engineering structure with lateral and angular deflections is investigated under the action of flow-induced vibrations. This aero-elastic instability excites and couples the system’s bending and torsion modes. Semiactive means due to open-loop parametric excitation are introduced to stabilize this self-excitation mechanism. The parametric excitation mechanism is modeled by time-harmonic variation in the concentrated mass and/or moment of inertia. The conditions for full suppression of the self-excited vibrations are determined analytically and compared with numerical results of an example system. For the first time, example systems are presented for which parametric antiresonance is established at the parametric combination frequency of the sum type.
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Research Papers
Suppressing Flutter Vibrations by Parametric Inertia Excitation
Fadi Dohnal,
Fadi Dohnal
Institute of Sound and Vibration Research,
e-mail: fd@isvr.soton.ac.uk
University of Southampton
, Highfield, Southampton SO17 1BJ, UK
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Aleš Tondl
Aleš Tondl
Zborovská 41
, CZ-150 00 Prague 5, Czech Republic
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Fadi Dohnal
Institute of Sound and Vibration Research,
University of Southampton
, Highfield, Southampton SO17 1BJ, UKe-mail: fd@isvr.soton.ac.uk
Aleš Tondl
Zborovská 41
, CZ-150 00 Prague 5, Czech RepublicJ. Appl. Mech. May 2009, 76(3): 031006 (7 pages)
Published Online: March 9, 2009
Article history
Received:
August 6, 2007
Revised:
October 2, 2008
Published:
March 9, 2009
Citation
Dohnal, F., and Tondl, A. (March 9, 2009). "Suppressing Flutter Vibrations by Parametric Inertia Excitation." ASME. J. Appl. Mech. May 2009; 76(3): 031006. https://doi.org/10.1115/1.3063631
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