Study on the Applicability of Load Calculation Method for Large-Diameter Shield Tunnel in Argillaceous Sandstone Stratum under High Water Pressure

Surrounding rock pressure is an important factor to be considered during designing tunnel structures. In this research, the on-site surrounding rock pressure of a large diameter shield tunnel in argillaceous sandstone stratum was tested, and the evolution process of surrounding rock pressure was ana...

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Bibliographic Details
Published in:KSCE journal of civil engineering 2023, 27(12), , pp.5401-5416
Main Authors: Tan, Yinjun, Wang, Qianshen
Format: Article
Language:English
Subjects:
Civil Engineering
Deformation
Depth
Engineering
Geotechnical Engineering & Applied Earth Sciences
Grouting
Hydrostatic pressure
Industrial Pollution Prevention
Load
Mathematical analysis
Mathematical models
Pressure
Rocks
Sandstone
Sedimentary rocks
Seismic engineering
Simulation
Soil columns
Statistical analysis
Statistical methods
Strata
Theories
Tunnel Engineering
Tunneling shields
Tunnels
Water pressure
Work face
토목공학
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Summary:Surrounding rock pressure is an important factor to be considered during designing tunnel structures. In this research, the on-site surrounding rock pressure of a large diameter shield tunnel in argillaceous sandstone stratum was tested, and the evolution process of surrounding rock pressure was analyzed, based on which the variation law of surrounding rock pressure with buried depth and span of the tunnel was discussed. Combined with the numerical simulation method, the applicability of the load calculation method for the large-diameter shield tunnel in the argillaceous sandstone stratum was studied. The results showed that the variation of surrounding rock pressure generally changed from a rapid and substantial increase to a slight decrease and finally tended to be stable. Before reaching stability, the deformation pressure was dominant; then, the loosening pressure became the main pressure, and the surrounding rock pressure almost reached the maximum value in the synchronous grouting stage. Moreover, it was also found that the shield construction had a great influence on the surrounding rock pressure of the 15-ring segments behind the working face. While calculating the surrounding rock pressure, the tunnel section shape, buried depth and surrounding rock conditions should be fully considered. The Full Soil Column Theory, Terzaghi’s Theory, Xie’s Theory and Bierbauman’s Theory were more suitable for tunnels with a buried depth of less than 2.5 h p . When the buried depth of the tunnel exceeded 2.5 h p , the calculation results needed to be enlarged by 2 ∼ 3 times if the Statistical Method or Protodyakonov’s Theory was used for calculation. Xie’s Theory can be used to calculate the surrounding rock pressure of shallowly buried argillaceous sandstone stratum large-diameter shield tunnel. For a deeply buried argillaceous sandstone stratum large-diameter shield tunnel, it is recommended to use Numerical Simulation Method.
ISSN:1226-7988
1976-3808
DOI:10.1007/s12205-023-1997-5