Analysis of Traffic-Induced Vibrations in a Cable-Stayed Bridge. Part II: Numerical Modeling and Stochastic Simulation
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Volume 10, Issue 4
Abstract
This paper describes the development of a numerical model to simulate the dynamic response of the bridge–vehicle system of Salgueiro Maia cable-stayed bridge, using the results from an extensive experimental investigation to calibrate this model. Further, a set of stochastic Monte Carlo simulations of the bridge–vehicle dynamic response is also presented, with the purpose of evaluating dynamic amplification factors, taking into account the randomness of different factors associated to characteristics of the pavement, of the vehicles and of the traffic flow.
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Acknowledgments
The writers wish to acknowledge the Portuguese Foundation for Science and Technology (FCT) for all the support provided to the development of the present investigation, which was partially carried out in the context of the Research Project No. PRAXIS/ECM/13251/1998.
References
Akoussah, K. E., Fafard, M., Talbot, M., and Beaulieu, D. (1997). “Étude paramétrique du facteur d’amplification dynamique des charges pour des ponts à travée simple en béton armé.” Can. J. Civ. Eng., 24, 313–322 (in French).
Bailey, S. F., and Bez, R. (1999). “Site specific probability distribution of extreme traffic action effects.” Probab. Eng. Mech., 14, 19–26.
Broquet, C. (1999). “Comportement dynamique des dalles de roulement des ponts en béton sollicités par le traffic routier.” PhD thesis, École Polytechnique Fédérale de Lausanne, EPFL, Switzerland (in French).
Calçada, R. (2003). “Avaliação experimental e numérica de efeitos dinâmicos de cargas de tráfego em pontes rodoviárias.” PhD thesis, Faculdade de Engenharia da Universidade do Porto, Portugal (in Portuguese).
Calçada, R., Cunha, A., and Delgado, R. (2005). “Analysis of traffic induced vibrations in a cable-stayed bridge. Part I: Experimental assessment.” J. Bridge Eng., 10(4), 370–385.
Calçada, R., Cunha, A., and Delgado, R. (2000). “A project for the experimental and numerical assessment of the dynamic effects of road traffic on bridges.” Proc., European COST F3 Conference on System Identification and Structural Health Monitoring, Madrid.
Câncio Martins, J. L., and Silveira, J. P. (2000). “Nova ponte sobre o rio Tejo em Santarém e viadutos de acesso.” Proc., Encontro Nacional de Betão Estrutural, Porto, Portugal (in Portuguese).
Cantieni, R. (1992). “Dynamic behaviour of highway bridges under the passage of heavy vehicles.” EMPA Rep. No. 220, Swiss Federal Laboratories for Materials Testing and Research, Dübendorf, Switzerland.
European Committee for Standardization (CEN). (2001). “EUROCODE 1—Actions on structures—Part 2: General actions—Traffic loads on bridges.” Draft prEN 1991-2, Doc CEN/TC250/SC1/N318, European Committee for Standardization, Brussels.
Delgado, R., and Cruz, S. (1997). “Modelling of railway bridge-vehicle interaction on high speed tracks.” Comput. Struct., 63(3), 511–523.
Drosner, S., and Sedlacek, G. (1989). “The dynamic behaviour of bridges and its consideration in the determination of a loading model in the Eurocode on actions.” Annales des Travaux Publics de Belgique, 3, 241–254.
Fafard, M., Bennur, M., and Savard, M. (1996). “A general multi-axle vehicle model to study the bridge-vehicle interaction.” Eng. Comput., 14(5), 491–508.
Freyssinet (1998). “Stay cable.” Technical catalog, Freyssinet, Vélizy, France.
Hwang, E.-S., and Nowak, A. S. (1991). “Simulation of dynamic load for bridges.” J. Struct. Eng., 117(5), 1413–1433.
International Organization for Standardization (ISO). (1995). “Mechanical vibration—Road surface profiles—Reporting of measured data.” ISO 8608:1995(E), ISO, Geneva.
Kirkegaard, P. H., and Nielsen, S. R. K. (1998). “Influence of uncertainty of vehicle dynamics on the dynamic response of minor highway bridges.” Proc., Stochastic Structure Dynamics SSD’98 Conference, Notre Dame, Ill.
Regulamento de Estruturas de Betão Arrmado e Pré-Esforçado (REBAP). (1983). “Regulamento de estruturas de betão armado e pré-esforçado.” Decreto Lei No. 349-C/83, de 30 de Julho, Imprensa Nacional, Casa da Moeda, Lisboa, Portugal (in Portuguese).
Rodrigues, J. (2001). “Dynamic tests of the Santarém cable-stayed bridge.” Proc., XIX Int. Modal Analysis Conference (CD-ROM), Society of Experimental Mechanics, SEM, Kissimmee, Fla.
Santos, L. O. (2001). “Observação e análise do comportamento diferido de pontes de betão.” PhD thesis, Instituto Superior Técnico, Lisboa, Portugal (in Portuguese).
Santos, L. O., Min, X., and Fernandes, J. (2002). “Ensaios de carga da ponte Salgueiro Maia sobre o rio Tejo em Santarém.” Rep.—NOE/LNEC, Laboratório Nacional de Engenharia Civil, LNEC, Lisboa, Portugal (in Portuguese).
Wang, T.-L., Huang, D., and Shahawy, M. (1992). “Dynamic response of multigirder bridges.” J. Struct. Eng., 118(8), 2222–2238.
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© 2005 ASCE.
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Received: Apr 16, 2003
Accepted: Jan 12, 2004
Published online: Jul 1, 2005
Published in print: Jul 2005
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