[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/imm.2012.5.4.317

Behavior of cable-stayed bridges under dynamic subsidence of pylons

Raftoyiannis, I.G. (Department of Civil Engineering, National Technical University of Athens)
Michaltsos, G.T. (Department of Civil Engineering, National Technical University of Athens)
Konstantakopoulos, T.G. (Department of Civil Engineering, National Technical University of Athens)

Publication Information

Interaction and multiscale mechanics / v.5, no.4, 2012 , pp. 317-345 More about this Journal

Abstract

Cable-stayed bridges are often used in modern bridge engineering for connecting two geographical points of long distance. A special load case to cable-stayed bridges is earthquake, which can produce horizontal as well as vertical movements on the pylons of the bridge. These movements may be transient in nature, i.e., only resulting in the transient vibration of the bridge, but causing no damage consequences. In some extreme cases, they may cause permanent subsidence on one or more pylons of the bridge. In this paper, the effect of pylons' subsidence on the dynamic deformations of the bridge and on the cables' strength is thoroughly studied. Conclusions useful to the design of cable-stayed bridges will be drawn from the numerical study.

Keywords

cable-stayed bridges; pylon displacements; fault; pylon dynamic subsidence;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	Virgoreux, M. (1999), "Recent evolution on cable-stayed bridges", J. Eng. Struct., 21(8), 737-755. DOI ScienceOn
2	Wang, P.H., Liu, M.Y., Huang, Y.T. and Lin, L.C. (2010), "Influence of lateral motion of cable-stayed bridges", Struct. Eng. Mech., 34(6), 719-738. DOI
3	Abdel-Ghaffar, A.M. and Khalifa, M.A. (1991), "Importance of cable vibration in dynamics of cable-stayed bridges", J. Eng. Mech.-ASCE, 117(11), 2571-2589. DOI
4	Achkire, Y. and Preumont, A. (1996), "Active tendon control of cable-stayed bridges", J. Earthq. Eng. Struct. D., 25(6), 585-597. DOI ScienceOn
5	Chatterjee, P.K., Datta, T.K. and Suruna, C.S. (1994), "Vibration of cable-stayed bridges under moving vehicles", J. Struct. Eng. Int., 4(2), 116-121. DOI
6	Bosdogianni, A. and Olivari, D. (1997), "Wind-reduced and rain-induced oscillations of cable-stayed bridges", J. Wind Eng. Ind. Aerod., 64(2-3), 171-185.
7	Bruno, D. and Grimaldi, A. (1985), "Non-linear behavior of long-span cable-stayed bridges", Meccanica J., 20(4), 303-313. DOI ScienceOn
8	Bruno, D. and Golotti, V. (1994), "Vibration analysis of cable-stayed bridges", J. Struct. Eng. Int., 4(1), 23-28. DOI
9	Ermopoulos, J., Vlahinos, A. and Wang, Y.C. (1992), "Stability analysis of cable-stayed bridges", Comput. Struct., 44(5), 1083-1089. DOI ScienceOn
10	Fleming, J.F. (1979), "Non-linear static analysis of cable-stayed bridge structures", Comput. Struct., 10(4), 986-1000.
11	Fleming, J.F. and Egeseli, E.A. (1980), "Dynamic behavior of a cable-stayed bridge", Earthq. Eng. Struct. D., 8(1), 1-16. DOI
12	Freire, A.M.S., Negrao, J.H.O. and Lopez, A.V. (2006), "Geometrical non-linearities on the static analysis of highly flexible steel cable-stayed bridges", Comput. Struct., 84(31-32), 2128-2140. DOI ScienceOn
13	Gimsing, N. (1997), Cable supported bridges - Concept and design, 2nd Edition, John Wiley & Sons, Chichester.
14	Khalil, M.S. (1999), "Non-linear analysis of cable-stayed bridges at ultimate load level", Can. J. Civil Eng., 23(5), 1111-1117.
15	Kollbruner, C.F., Hajdin, N. and Stipanic, B. (1980), Contribution to the analysis of cable-stayed Bridges, Inst. For Engineering Research Editions, N.48, Schulthess Verlag, Zurich.
16	Konstantakopoulos, T.G., Michaltsos, G.T. and Sophianopoulos, D.S. (2002), A simplified model for the study of the lateral-torsional vibration of cable-stayed bridges-Eurodyn 2002, Springer, Munich.
17	Leonard, F. (1972), Bridges, Architectural Press, London.
18	Michaltsos, G.T. (2005), "Stability of a cable-stayed bridge's pylon, under time-depended loading", Collection of papers in memory of Academician P.S. Theocharis. Inst. of Mechanics Problems and Academy of Sciences, Russia, Inst. Of Mechanics of Nat. Acad. of Sciences, Armenia.
19	Michaltsos, G.T. (2001), "A simplified model for the dynamic analysis of cable-stayed bridges", Facta Universitatis, 3(11), 185-204.
20	Michaltsos, G.T., Ermopoulos, J.C. and Konstantakopoulos, T.G. (2003), "Preliminary design of cable-stayed bridges for vertical static loads", J. Struct. Eng. Mech., 16(1), 1-15. DOI
21	Michaltsos, G.T., Raftoyiannis, I.G. and Konstantakopoulos, T.G. (2008), "Dynamic stability of cable-stayed bridge pylons", Int. J. Struct. Stabil. Dyn., 8(4), 627-643. DOI
22	Michaltsos, G.T. and Raftoyiannis, I.G. (2009), "The influence of different support movements and heights of piers on the dynamic behavior of bridges. Part I: Earthquake acting transversely to the Deck", Interact. Multiscale Mech., 2(4), 431-454. DOI
23	Michaltsos, G.T. and Raftoyiannis, I.G. (2012), Bridges' dynamics, (e-book) Bentham Publ. UAE
24	Mozos, C.M. and Aparicio, A.C. (2010), "Parametric study on the dynamic response of cable-stayed bridges to the sudden failure of a stay. Part I: Bending moment acting on the deck", Eng. Struct., 32(10), 3288-3300. DOI ScienceOn
25	Nazmy, A.S. and Abdel-Ghaffar, A.M. (1990), "Non-linear earthquake response analysis of long-span cablestayed bridges", Earthq. Eng. Struct. D., 19(1), 45-62. DOI
26	Raftoyiannis, I.G., Konstantakopoulos, T.G. and Michaltsos, G.T. (2010), "The influence of different support movements and heights of piers on the dynamic behavior of bridges. Part II: Earthquake acting along the Bridge Axis", Interact. Multiscale Mech., 3(1), 39-54. DOI
27	Raftoyiannis, I.G., Michaltsos, G.T. and Konstantakopoulos, T.G. (2012), "Behavior of cable-stayed bridges built over faults", Interact. Multiscale Mech., 5(3), 187-210. DOI
28	Troitsky, M.C. (1988), Cable-stayed bridges - Theory and design, 2nd edition, B.S.P. Professional Books, London.