Elastic deformation modulus for estimating convergence when tunnelling through squeezing ground
Open access
Datum
2018-08Typ
- Journal Article
Abstract
Squeezing in tunnelling is commonly assessed using the linearly elastic–perfectly plastic Mohr-Coulomb (MC) model. Weak rocks and fault materials, however, exhibit confining stress-dependent and strain-hardening behaviour prior to failure, i.e. the higher the confining stress and the lower the shear strain the stiffer the rock behaviour. As the MC model assumes a strain- and stress-independent Young’s modulus, the selection of an appropriate ‘operational’ value, EMC, remains a major problem in tunnel studies using this model. Although EMC has a significant effect on the deformation predictions (they are inversely proportional to it under small strain theory), there is no widely-accepted or well-validated approach to its selection. This paper shows, using the results of triaxial compression tests on weak rocks and fault materials from the Gotthard base tunnel and five other projects, and performing a theoretical analysis of the ground response to tunnel excavation, that EMC can be determined by a simple extrapolation of standard triaxial compression test results (typically performed at lower confining pressures) to the in situ stress level. This is particularly useful for practical purposes as it allows standard computational methods to be used with sufficient accuracy, rendering more refined models unnecessary, at least at the preliminary design stage. Mehr anzeigen
Persistenter Link
https://doi.org/10.3929/ethz-b-000199256Publikationsstatus
publishedExterne Links
Zeitschrift / Serie
GéotechniqueBand
Seiten / Artikelnummer
Verlag
Institution of Civil EngineersThema
deformation; laboratory tests; plasticity; rocks; stiffness; tunnelsOrganisationseinheit
03655 - Anagnostou, Georgios / Anagnostou, Georgios
02607 - Institut für Geotechnik / Institute for Geotechnical Engineering