2026-06-21T18:13:00Zhttps://riubu.ubu.es/oai/requestoai:riubu.ubu.es:10259/68752024-05-20T09:48:50Zcom_10259.4_104com_10259_2604col_10259_6848
Towards the numerical ground-borne vibrations predictive models as a design tool for railway lines: A starting point
García Moreno, Andrés
Ruiz Aguilar, Juan Jesús
Moscoso López, José Antonio
Ferrocarriles
Railways
Ingeniería civil
Transportes
Civil engineering
Transportation
Trabajo presentado en: R-Evolucionando el transporte, XIV Congreso de Ingeniería del Transporte (CIT 2021), realizado en modalidad online los días 6, 7 y 8 de julio de 2021, organizado por la Universidad de Burgos
In recent decades, High-Speed Railway (HSR) lines have become one of the most extended
and environmental-friendly ways to plan new mass transport networks. These systems are
directly influenced by its operational speed generated dynamic effects and the areas where
it runs through. This necessarily requires to predict ground-borne vibrations generated by
trains passing-by populated areas and its influence zone.
Trends in ground-borne measurements, prediction models, and isolation systems are usually
performed for maximum operation speed. This method implies the maximum dynamic
forces which are suitable for structural calculations (generally developed in time domain)
but not necessary for vibration related issues (emission and/or transmission). Additionally,
these studies are mainly focused on urban areas where maximum operational speed are
frequently far from railways service’s top speeds.
Related to frequency domain, it is known that upper frequencies are not the most disturbing
ones. In fact, European structural standards usually cut frequencies off at 30 Hz, so much
relevant information for vibrational prediction is ignored due to it does not influence
structural issues.
Moreover, current common predictive numerical models usually apply punctual loads (birth
& death) that are disposed to run in certain speed conditions. This method, which is
considered valid for time domain analysis, are identified to be incomplete for frequency
domain components due to its discontinuous application of loads.
The implementation of contact theories in the wheel-rail interface implies a continuous load
application, refining the obtained results but increasing computational cost.
In this study, different scenarios are compared varying inner and boundary conditions of a
model, with the aim of validate results and optimize resources by obtaining a parametrical
influence study that will show how different assumptions and cases could condition groundborne
vibrational studies results.
2022-09-16T07:00:37Z
2022-09-16T07:00:37Z
2021-07
info:eu-repo/semantics/conferenceObject
info:eu-repo/semantics/publishedVersion
978-84-18465-12-3
http://hdl.handle.net/10259/6875
10.36443/10259/6875
eng
R-Evolucionando el transporte
http://hdl.handle.net/10259/6490
https://doi.org/10.36443/9788418465123
info:eu-repo/semantics/openAccess
application/pdf
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Hispana
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RIUBU. Repositorio Institucional de la Universidad de Burgos
http://hdl.handle.net/10259/6875