- 作者:T. Argentini ; tommaso.argentini@mecc.polimi.it ; D. Rocchi ; S. Muggiasca ; A. Zasso
- 关键词:Flutter derivatives ; Admittance functions ; Distributed coefficients ; Bridge deck aerodynamics ; Pressure distribution ; Wind tunnel testing
- 刊名:Journal of Wind Engineering and Industrial Aerodynamics
- 出版年:2012
- 期刊代码:55_01676105
- 类别:ms
- 出版时间:May-July, 2012
- 卷:104-106
- 期:Complete
- 页码:152-158
- 文件大小:570 K
This paper introduces a distributed representation of global coefficients that, exploiting the knowledge of the unsteady pressure field along the contour of the deck, allows to understand more in detail the aerodynamics of the phenomenon. We use the distributed representation to analyze the unsteady forces acting on a simple closed-box single girder deck, and we focus the study on two aspects.
First, we analyze the unsteady aerodynamic forces near the stall of the moment coefficient, highlighting that a specific area of the deck governs the phenomenon; then we focus the attention on the comparison between the phenomenology of self-excited and wind induced unsteady forces. Results show the effectiveness of the distributed representation in highlighting similarities and discrepancies between different wind-bridge interactions.
The distributed representation results to be an interesting tool to perform the optimization of the aeroelastic performances of decks and to improve nonlinear models for the dynamic response of bridges in turbulent wind.