Abstract
Computational modelling of the effect of underground excavations on adjacent structures has shown great potential to aid the assessment of tunnelling-induced damage to structures. However, the complexity of the mechanisms involved and the uncertainties connected to the use of sophisticated constitutive laws still limit the application of numerical modelling in civil engineering practice. This paper evaluates the effectiveness of soil models with different levels of complexity when predicting tunnelling-induced displacements of the soil surface, and consequently the assessment of building deformations. The performance of a non-linear elastic, a linear elastic-perfectly plastic and a critical-state-based kinematic hardening soil model were compared with the results of centrifuge testing of a tunnel excavation in sand. Results demonstrated that both the non-linear elastic and the kinematic hardening models are suitable to reproduce the effect of soil-structure interaction on the soil surface displacements and the building deformations, while also demonstrating the limitations of these methods in predicting local soil strains around the tunnel itself.
Original language | English |
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Pages (from-to) | 379-397 |
Number of pages | 19 |
Journal | Proceedings of the Institution of Civil Engineers: Geotechnical Engineering |
Volume | 173 |
Issue number | 5 |
DOIs | |
Publication status | Published - 1 Oct 2020 |
Bibliographical note
Funding Information:The authors are grateful to the Engineering and Physical Sciences Research Council (EPSRC), grant EP/KP018221/1, for providing financial support. The related research data are available at https://doi.org/10.15125/BATH-00714.
Publisher Copyright:
© 2019 ICE Publishing: All rights reserved.
Keywords
- computational mechanics
- models (physical)
- tunnels and tunnelling
ASJC Scopus subject areas
- Geotechnical Engineering and Engineering Geology
- Earth and Planetary Sciences (miscellaneous)
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Dataset for "Effect of soil models on the prediction of tunnelling-induced deformations of structures"
Giardina, G. (Creator), University of Bath, 5 Nov 2019
DOI: 10.15125/BATH-00714
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