Wind tunnel experiments on unstable self-excited vibration of sectional girders

In this paper, a wind tunnel analysis of two degrees-of-freedom system represented by sectional girders is carried out. Besides an evaluation of the aeroelastic coefficients, the analysis is focused on the influence of the natural frequency ratio on the initiation of unstable vibration, which can be...

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Bibliographic Details
Published in:Journal of fluids and structures 2014-01, Vol.44, p.235-250
Main Authors: Kral, Radomil, Pospisil, Stanislav, Naprstek, Jiri
Format: Article
Language:English
Subjects:
Aeroelastic response
Cross sections
Disturbances
Flutter derivatives
Frequency ratio tuning
Girders
Initial disturbance
Separation
Stability
Stability domain
Vibration
Wind tunnel testing
Wind tunnels
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Summary:In this paper, a wind tunnel analysis of two degrees-of-freedom system represented by sectional girders is carried out. Besides an evaluation of the aeroelastic coefficients, the analysis is focused on the influence of the natural frequency ratio on the initiation of unstable vibration, which can be of practical interest. On the phenomenological level, the paper also discusses experimentally ascertained response regimes, with an emphasis on their stability character. The attention is paid to the memory effect in the response described by the hysteresis loop together with the separation curves determining the stability boundaries. The influence of initial disturbance on the stability is examined. Two types of cross-sections were investigated: (i) rectangular one with the aspect ratio 1:5, and (ii) bridge-like cross-section with comparable principal dimensions. For both types of cross-sections, the limits of the stability are significantly affected by an intentionally introduced initial disturbance. This holds especially with regard to the rectangular profile where the separation curves create very narrow sub-domains between a stable and an unstable response, while the bridge-like cross-section demonstrates much stable behaviour.
ISSN:0889-9746
1095-8622
DOI:10.1016/j.jfluidstructs.2013.11.002