Abstract
This study investigates the long-term settlement behaviour induced by shield tunnelling in soft ground, employing a case study and numerical modelling to achieve a comprehensive understanding. Soil consolidation plays a critical role in long-term surface settlement, necessitating precise calibration of essential tunnelling parameters such as face pressure and grouting pressure. The findings indicate that soil settlement progressively increases with increasing face pressure Pf and grouting pressure Pg during the excavation of a shield tunnel. Furthermore, for long-term consolidation settlement, it has been established that setting Pf at 90% of the lateral earth pressure σxx consistently minimizes settlement across all cover depths. This phenomenon is attributed to the soil arching mechanism, which also reduces the height of the loosened zone at this specific Pf level. Similarly, the optimal Pg is identified to be within the range of 130% to 150% of the vertical earth pressure σzz. For cover depths within the loosened zone, the smallest consolidation settlement and loosened zone height are observed at Pg of 150% of σzz. Conversely, for shallower cover depths, beyond the loosened zone but within the arching zone, the smallest consolidation settlement and loosened zone height occur at Pg of 130% of σzz. This study reveals that adjusting the cover depth significantly influences the reduction in vertical stress and the resulting settlement, demonstrating the importance of tailored grouting pressure calibration for varying depths to limit consolidation settlement.
Original language | English |
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Article number | 106168 |
Journal | Tunnelling and Underground Space Technology |
Volume | 155 |
DOIs | |
Publication status | Published - Jan 2025 |
Externally published | Yes |
Bibliographical note
Publisher Copyright:© 2024
ASJC Scopus Subject Areas
- Building and Construction
- Geotechnical Engineering and Engineering Geology
Keywords
- Long-term settlement behaviour
- Soil arching mechanism
- Tunnelling parameters