Prediction of ground vibrations induced by urban railway traffic: an analysis of the coupling assumptions between vehicle, track, soil, and buildings

Kouroussis, Georges; VanParys, Laurent; Conti, Calogero; Verlinden, Olivier

Article (Scientific journals)

Kouroussis, Georges; VanParys, Laurent; Conti, Calogero et al.

2013 • In International Journal of Acoustics and Vibration, 18 (4), p. 163-172

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Disciplines :

Mechanical engineering
Physics

Author, co-author :

Kouroussis, Georges ; Université de Mons > Faculté Polytechnique > Mécanique rationnelle, Dynamique et Vibrations

VanParys, Laurent ; Université de Mons > Faculté Polytechnique > Génie civil et Mécanique des Structures

Conti, Calogero ; Université de Mons > Faculté Polytechnique > Mécanique rationnelle, Dynamique et Vibrations

Verlinden, Olivier ; Université de Mons > Faculté Polytechnique > Mécanique rationnelle, Dynamique et Vibrations

Language :

English

Title :

Prediction of ground vibrations induced by urban railway traffic: an analysis of the coupling assumptions between vehicle, track, soil, and buildings

Publication date :

30 December 2013

Journal title :

International Journal of Acoustics and Vibration

ISSN :

1027-5851

Publisher :

Nauchno-tekhnicheskii Tsentr, Russia

Volume :

Issue :

Pages :

163-172

Peer reviewed :

Peer Reviewed verified by ORBi

Research unit :

F703 - Mécanique rationnelle, Dynamique et Vibrations

Research institute :

R500 - Institut des Sciences et du Management des Risques

Available on ORBi UMONS :

since 12 December 2013

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Bibliography

Deutsches Institut für Normung. DIN 4150-3: Structural vibrations-Part 3: Effects of vibration on structures, (1999).
Crispino, M. and D'Apuzzo, M. Measurement and prediction of traffic-induced vibrations in a heritage building, Journal of Sound and Vibration, 246 (2), 319-335, (2001).
Vogiatzis, K. Noise and vibration theoretical evaluation and monitoring program for the protection of the ancient "Kapnikarea Church" from Athens metro operation, International Review of Civil Engineering, 1, 328-333, (2010).
Vogiatzis, K. Protection of the cultural heritage from underground metro vibration and ground-borne noise in Athens centre: The case of the Kerameikos archaeological museum and Gazi cultural centre, International Journal of Acoustics and Vibration, 17, 59-72, (2012).
Auersch, L. Theoretical and experimental excitation force spectra for railway-induced ground vibration: Vehicletrack-soil interaction, irregularities, and soil measurements, Vehicle System Dynamics, 48 (2), 235-261, (2010).
Auersch, L. Building response due to ground vibration-simple prediction model based on experience with detailed models and measurements, International Journal of Acoustics and Vibration, 15 (3), 101-112, (2010).
Metrikine, A. V. and Popp, K. Vibration of a periodically supported beam on an elastic half-space, European Journal of Mechanics-A/Solids, 18 (4), 679-701, (1999).
Sheng, X., Jones, C. J. C., and Thompson, D. J. A theoretical study on the influence of the track on train-induced ground vibration, Journal of Sound and Vibration, 272 (3-5), 909-936, (2004).
Lombaert, G. and Degrande, G. Ground-borne vibration due to static and dynamic axle loads of intercity and highspeed trains, Journal of Sound and Vibration, 319, 1036-1066, (2009).
Pyl, L., Degrande, G., Lombaert, G., and Haegeman, W. Validation of a source-receiver model for road traffic induced vibrations in buildings. I: Source model, ASCE Journal of Engineering Mechanics, 130 (12), 1377-1393, (2004).
Pyl, L., Degrande, G., and Clouteau, D. Validation of a source-receiver model for road traffic induced vibrations in buildings. II: Receiver model, ASCE Journal of Engineering Mechanics, 130 (12), 1394-1406, (2004).
Ju, S.-H. Finite element investigation of traffic induced vibrations. Journal of Sound and Vibration, 321 (3-5), 837-853, (2009).
Harris, C. M. editor. Shock and Vibration Handbook, McGraw-Hill, New-York, USA, 6th edition, (2009).
Dietz, S., Hippmann, G., and Schupp, G. Interaction of vehicles and flexible tracks by co-simulation of multibody vehicle systems and finite element track models, Vehicle System Dynamics Supplement (The Dynamics of Vehicles on Roads and on Tracks), 37, 372-384, (2002).
Kouroussis, G., Verlinden, O., and Conti, C. Ground propagation of vibrations from railway vehicles using a finite/infinite-element model of the soil, Proceedings of IMechE, Part F: Journal of Rail and Rapid Transit, 223 (F4), 405-413, (2009).
Sheng, X., Jones, C. J. C., and Thompson, D. J. Prediction of ground vibration from trains using the wavenumber finite and boundary element methods, Journal of Sound and Vibration, 293 (3-5), 575-586, (2006).
Kouroussis, G., Verlinden, O., and Conti, C. On the interest of integrating vehicle dynamics for the ground propagation of vibrations: The case of urban railway traffic, Vehicle System Dynamics, 48 (12), 1553-1571, (2010).
Kouroussis, G., Verlinden, O., and Conti, C. Efficiency of resilient wheels on the alleviation of railway ground vibrations, Proceedings IMechE, Part F: Journal of Rail and Rapid Transit, 226 (4), 381-396, (2012).
Kouroussis, G., Verlinden, O., and Conti, C. A two-step time simulation of ground vibrations induced by the railway traffic, Journal of Mechanical Engineering Science, 226 (2), 454-472, (2012).
Kouroussis, G., Verlinden, O., and Conti, C. Efficiency of the viscous boundary for time domain simulation of railway ground vibration, 17th International Congress on Sound and Vibration (ICSV17), Cairo, Egypt, (2010).
Kouroussis, G., Gazetas, G., Anastasopoulos, I., Conti, C., and Verlinden, O. Discrete modelling of vertical track-soil coupling for vehicle-track dynamics, Soil Dynamics and Earthquake Engineering, 31 (12), 1711-1723, (2011).
Deutsches Institut für Normung. DIN 4150-2: Structural vibrations-Part 2: Human exposure to vibration in buildings, (1999).
Degrande, G., De Roeck, G., Dewulf, W., Van den Broeck, P., and Verlinden, M. Design of a vibration isolating screen, Sas, P. editor, Proceedings ISMA 21, Noise and Vibration Engineering, Vol. II, 823-834, Leuven, Belgium, (1996).