期刊
TUNNELLING AND UNDERGROUND SPACE TECHNOLOGY
卷 107, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.tust.2020.103680
关键词
Shield tunnel; Soft soil; Convergence; Laser scanning; Confining pressure
资金
- National Key R&D Program of China [2018YFC0808702, 2018YFC0809601]
- National Natural Science Foundation of China [52038008]
- Shanghai Science and Technology Innovation Plan Funds [17DZ1204103, 18DZ1205200, 20DZ1202406]
This paper presents the study on the full space convergence of shield tunnels by employing 3D laser scanning test method and convergence ellipse fitting identification technology. Through field tests, the spatial distribution and life-cycle development laws of three typical convergence modes were investigated. The findings provide valuable insights into stress and deformation interaction during large diameter shield tunnel construction and operation.
The tunnel convergence is an important index of the construction quality and operation safety. In the past, most of researches were focused on the shield tunnel lateral convergence and its effect on the safety at operation period. In this paper, by employing the 3D laser scanning test method and convergence ellipse fitting identification technology, the shield tunnel full space convergence can be tested and divided into three typical modes: transverse ellipse, oblique ellipse and vertical ellipse. Based on series of field tests in three large-diameter tunnels under construction and operation, the spatial distribution and life-cycle development laws of above three typical convergence modes were firstly seriously studied, the changes of the long axis, short axis and deflection angle of above convergence modes are given. Meanwhile, the generation mechanism and main cause is studied by analysis of machine-structure interaction, soil pressure and back-fill grouting action during shield construction. It is found, in the soft soil areas, the formation of different convergence modes mainly depends on the initial load condition at the stage of segments leaving the shield tail, and the following action of back-fill grouting will have little effect on the structure convergence, but most on the surrounding soil deformation. Subsequently, the convergence will continue growth with the short axis deformation greater than the long axis, and gradually develop towards symmetry with soil consolidation. Besides that, the obvious coupling relationship between the convergence and the longitudinal settlement can also be found after long-term operation from the tests. The above findings are very helpful to fully understanding the stress and deformation interaction during the large diameter shield tunnel construction and operation.
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