Methodology for predicting vibrations induced by underground railways in 2D numerical models: a real case in Madrid, Spain

Authors

  • J. Fernández Universidad de A Coruña (España)
  • L. Medina Universidad de A Coruña (España)

Keywords:

Railway vibrations, tunnels, building, 2D numerical models, time domain

Abstract

This paper presents a methodology for predicting vibrations produced by underground railways through 2D FEM numerical models formulated in the time domain. The numerical approach is based on the application of train loads as dynamic displacements on the rail pad and the application of load correction coefficients in 2D numerical models. This load reduction coefficient is calculated by comparing 2D and 3D static numerical models, assuming that vertical displacements are equal in both cases. This methodology has been applied in a real case in Madrid, Spain, where a reasonable fit between numerical and experimental results was found. Therefore, it could be a useful tool in early stages of design and for studying mitigation measures.

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Published

2020-07-09

How to Cite

Fernández, J., & Medina, L. (2020). Methodology for predicting vibrations induced by underground railways in 2D numerical models: a real case in Madrid, Spain. Revista Ingeniería De Construcción, 32(3), 173–184. Retrieved from https://ojs.uc.cl/index.php/ric/article/view/17203

Issue

Section

Original Articles (part 1)