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Earth pressure load determination method of deeply-buried asymmetric multiple-arch tunnel

An earth pressure load, multi-arch tunnel technology, which is applied in the field of multi-arch tunnel support structure design, can solve the problems such as the inability to comprehensively consider the pre-supporting effect of the middle partition wall and the inability to directly apply the asymmetry.

Active Publication Date: 2015-12-09
BEIJING UNIV OF TECH
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Problems solved by technology

Ding Wenqi et al. proposed a load calculation formula for multi-arch tunnels based on the theory of double-slump arches on the basis of the standard single-cavity tunnel load calculation formula, creating a precedent for the calculation method of earth pressure loads for multi-arch tunnels, but the disadvantages of this method are The pre-support function of the partition wall cannot be fully considered
However, these research results are mainly aimed at symmetrical multi-arch tunnels, and cannot be directly applied to asymmetrical cases.

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  • Earth pressure load determination method of deeply-buried asymmetric multiple-arch tunnel
  • Earth pressure load determination method of deeply-buried asymmetric multiple-arch tunnel
  • Earth pressure load determination method of deeply-buried asymmetric multiple-arch tunnel

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Embodiment

[0069] Taking Mazhaiding Tunnel as an engineering example, the structural section of K56+215 asymmetric multi-arch tunnel is selected, and the calculation of earth pressure load is carried out by deriving the formula according to this method, and compared with the measured contact pressure between primary support and surrounding rock. The surrounding rock of this section is V grade, the buried depth is about 50m, the excavation span of the left hole is 11.5m, the excavation height of the left hole is 8.5m, the span of the right hole is 14m, the excavation height of the right hole is 9m, and the width of the middle partition wall is 3m , the calculated friction angle is 45°, and the bulk density is 20kN / m 3 .

[0070] According to the derivation formula of this method, the earth pressure load of the monitoring section can be obtained. The above calculation results are superimposed along the excavation contour of the multi-arch tunnel to obtain the distribution of the calculate...

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Abstract

The invention provides an earth pressure load determination method of a deeply-buried asymmetric multiple-arch tunnel. The asymmetric multiple-arch tunnel has the mechanical characteristics that the geometry and structure modes are asymmetric, the excavation span is large, the construction processes are various, the structure stress is complex, etc. In supporting structure design, load-structure model checking computations are usually needed, and no mature calculation method is available for load determination. At the background, the asymmetric condition of the geometry and structure modes of left and right tunnel chambers is considered, and based on the basic assumption of two slumping arches of the multiple-arch tunnel, and earth pressure load calculating formulas of the deeply-buried asymmetric multiple-arch tunnel are derived according to Pu's theory. If the a symmetric condition is given to the derived formulas, the derived formulas can be degenerated to the calculating formulas of a normal multiple-arch tunnel, so that the accuracy of the derived formulas is verified; and finally, combined with engineering cases, the rationality of the derived formulas is verified. The research method and conclusion can provided important references for the determination of a design load of the deeply-buried asymmetric multiple-arch tunnel.

Description

technical field [0001] The invention relates to the technical field of support structure design of multi-arch tunnels, in particular to a method for determining earth pressure loads of deeply buried asymmetric multi-arch tunnels. Background technique [0002] Since the reform and opening up, with the rapid development of the national economy, the continuous advancement of the urbanization process and the successful implementation of the strategic decision of the Western Development, my country's urban road network and inter-city expressway network are forming, urban underground road projects and mountain-crossing roads Tunneling projects keep popping up. In view of the constraints of highway alignment and terrain conditions, some tunnels have to adopt the form of multi-arch structure, and asymmetric multi-arch tunnel is a special structural form under special conditions. In addition to the general characteristics of multi-arch tunnels such as complex structural stress, numer...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01L5/00
Inventor 李鹏飞张成平张顶立聂雄魏盼王帆
Owner BEIJING UNIV OF TECH
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