DOI QR코드

DOI QR Code

Dynamic response of a bridge deck with one torsional degree of freedom under turbulent wind

  • Foti, Dora (Department of Structural Engineering, Technical University of Bari) ;
  • Monaco, Pietro (Department of Structural Engineering, Technical University of Bari)
  • 발행 : 2000.06.25

초록

Under special conditions of turbulent wind, suspension and cable-stayed bridges could reach instability conditions. In various instances the bridge deck, as like a bluff body, could exhibit single-degree torsional instability. In the present study the turbulent component of flow has been considered as a solution of a differential stochastic linear equation. The input process is represented by a Gaussian zero-mean white noise. In this paper the analytical solution of the dynamic response of the bridge has been determined. The solution has been obtained with a technique of closing on the order of the moments.

키워드

참고문헌

  1. Bartoli, G. and Borri, C. (1997), "On the influence of wind turbulence on bridge decks flutter. Aspect in modern computational structural analysis", Meskouris & Wittek. Balkema, Rotterdam.
  2. Bontempi, F. and Malerba, P.G. (1994), "On the aeroelastic behaviour of cable stayed bridges", Proc. of the International Symposium on Cable Stayed Bridges, Shanghai, May 10-13, 290-301.
  3. Citrini, C. (1992). Analisi Matematica, 1, 2. Ed. Bollati Boringhieri. Torino.
  4. Iannuzzi, A. and Spinelli, P. (1986), "Effetti del vento sugli impalcati da ponte: comportamento aerodinamico e simulazione numerica. Parte I e II", Costruzioni Metalliche, nn. 1, 2.
  5. Ibrahim, R.A., Soundararajan, A. and Heo, H. (1985) "Stochastic response of non linear dynamic systems based on a non-Gaussian closure", Journal of Applied Mechanics, 4, 51-89.
  6. Lin, Y.K. (1967). Probabilistic Theory of Structural Dynamics, McGraw-Hill Book Company.
  7. Scanlan, R. H. and Tomko, J.J. (1971), "Airfoil and bridge deck flutter derivatives", Journal of the Engineering Mechanics Division , December, 1717-1737.
  8. Simiu, E. and Scanlan, R.H. (1986). Wind Effects on Structure, Second Edition, John Wiley & Sons, New York.
  9. Solari G. (1987), "Turbulence modelling for gust loading", Journal Struct. Eng., ASCE, 113, 1550-1569. https://doi.org/10.1061/(ASCE)0733-9445(1987)113:7(1550)