TY - GEN
T1 - Seismic surface-wave analysis for railway platform auscultation
AU - Bodet, L.
AU - Pasquet, S.
AU - Dhemaied, A.
AU - Boisson-Gaboriau, J.
AU - Cui, Y. J.
AU - Leroux, P.
AU - Nebieridze, S.
AU - Tang, A. M.
AU - Terpereau, J. M.
AU - Vitale, Q.
N1 - Publisher Copyright:
© (2015) by the European Association of Geoscientists & Engineers (EAGE).
PY - 2015/1/1
Y1 - 2015/1/1
N2 - The renewal of existent railways requires the characterisation of the mechanical properties of railway platforms (RP), thus raising the need to select appropriate maintenance actions. Conventional techniques (geotechnical soundings, coring) remain local, destructive, expensive and with low yields. Using nondestructive investigation techniques for local diagnosis and monitoring thus appears of great interest for enhancing RP control. Seismic surface-wave methods have been proposed to estimate in situ mechanical parameters of the superficial layers below railways. In this context, a joint geotechnical and seismic survey was carried out along the Northern Europe high-speed line (LGV) in order to precisely determine the origins of a phenomenon affecting the geometry of the track. Strong a priori knowledge of the RP structure allowed for inverting dispersion measurements for 1D VS models along the track. The results showed a contrast of VS in the loess lying below the RP, between areas where the phenomenon was observed and those it was not. This contrast was confirmed by Bender Elements measurements of VS performed on core drilling samples, and corresponded to the lateral variations observed along the track. These results encourage considering dispersion measurements as an appropriate tool of RP monitoring.
AB - The renewal of existent railways requires the characterisation of the mechanical properties of railway platforms (RP), thus raising the need to select appropriate maintenance actions. Conventional techniques (geotechnical soundings, coring) remain local, destructive, expensive and with low yields. Using nondestructive investigation techniques for local diagnosis and monitoring thus appears of great interest for enhancing RP control. Seismic surface-wave methods have been proposed to estimate in situ mechanical parameters of the superficial layers below railways. In this context, a joint geotechnical and seismic survey was carried out along the Northern Europe high-speed line (LGV) in order to precisely determine the origins of a phenomenon affecting the geometry of the track. Strong a priori knowledge of the RP structure allowed for inverting dispersion measurements for 1D VS models along the track. The results showed a contrast of VS in the loess lying below the RP, between areas where the phenomenon was observed and those it was not. This contrast was confirmed by Bender Elements measurements of VS performed on core drilling samples, and corresponded to the lateral variations observed along the track. These results encourage considering dispersion measurements as an appropriate tool of RP monitoring.
UR - https://www.scopus.com/pages/publications/84958092808
U2 - 10.3997/2214-4609.201413802
DO - 10.3997/2214-4609.201413802
M3 - Conference contribution
AN - SCOPUS:84958092808
T3 - Near Surface Geoscience 2015 - 21st European Meeting of Environmental and Engineering Geophysics
SP - 691
EP - 695
BT - Near Surface Geoscience 2015 - 21st European Meeting of Environmental and Engineering Geophysics
PB - European Association of Geoscientists and Engineers, EAGE
T2 - 21st European Meeting of Environmental and Engineering Geophysics, Near Surface Geoscience 2015
Y2 - 6 September 2015 through 10 September 2015
ER -