Show simple item record

AuthorM.F.M., Hussein
AuthorFrançois, S.
AuthorSchevenels, M.
AuthorHunt, H.E.M.
AuthorTalbot, J.P.
AuthorDegrande, G.
Available date2023-06-01T11:08:05Z
Publication Date2014-08-28
Publication NameJournal of Sound and Vibration
Identifierhttp://dx.doi.org/10.1016/j.jsv.2014.07.020
CitationHussein, M. F. M., François, S., Schevenels, M., Hunt, H. E. M., Talbot, J. P., & Degrande, G. (2014). The fictitious force method for efficient calculation of vibration from a tunnel embedded in a multi-layered half-space. Journal of sound and vibration, 333(25), 6996-7018.
ISSN0022-460X
URIhttps://www.sciencedirect.com/science/article/pii/S0022460X14006178
URIhttp://hdl.handle.net/10576/43706
AbstractThis paper presents an extension of the Pipe-in-Pipe (PiP) model for calculating vibrations from underground railways that allows for the incorporation of a multi-layered half-space geometry. The model is based on the assumption that the tunnel displacement is not influenced by the existence of a free surface or ground layers. The displacement at the tunnel–soil interface is calculated using a model of a tunnel embedded in a full space with soil properties corresponding to the soil in contact with the tunnel. Next, a full space model is used to determine the equivalent loads that produce the same displacements at the tunnel–soil interface. The soil displacements are calculated by multiplying these equivalent loads by Green׳s functions for a layered half-space. The results and the computation time of the proposed model are compared with those of an alternative coupled finite element–boundary element model that accounts for a tunnel embedded in a multi-layered half-space. While the overall response of the multi-layered half-space is well predicted, spatial shifts in the interference patterns are observed that result from the superposition of direct waves and waves reflected on the free surface and layer interfaces. The proposed model is much faster and can be run on a personal computer with much less use of memory. Therefore, it is a promising design tool to predict vibration from underground tunnels and to assess the performance of vibration countermeasures in an early design stage.
SponsorEngineering and Physical Sciences Research Council - grant # [EP/K006665/1].
Languageen
PublisherElsevier
Subjecttunnel-soil interface
Pipe-in-Pipe (PiP)
underground tunnels
TitleThe fictitious force method for efficient calculation of vibration from a tunnel embedded in a multi-layered half-space
TypeArticle
Pagination6996-7018
Issue Number25
Volume Number333
ESSN1095-8568
dc.accessType Open Access


Files in this item

Thumbnail

This item appears in the following Collection(s)

Show simple item record