Numerical Analysis of Western Hills Highway Tunnel Excavation and Support

In this paper, the mechanical behaviors of pipe roof and bolt of shallow and unsymmetrical tunnel in soft rock are analyzed. Through the finite element software Phase2.0, combined with the geological conditions that construction site often appear, the mechanical behaviors of pipe roof and bolt and surrounding rock in the process of horseshoe highway tunnel construction in the condition that surface is soft rock and underground for the bedrock are analyzed. Research results show that: after tunnel excavation in soft rock, surrounding rock near the tunnel is easy to suffer soft-rock large deformation even failure, which needs to timely support；Due to the impact of the unsymmetrical tunnel, the mechanical behaviors of surrounding rock are unsymmetrical, such as the maximum displacement of tunnel around 0.4 m distant from apex of arch ring, the stress is asymmetrical on both sides of the tunnel arch ring etc; In addition, pipe roof can effectively prevent from the displacement of soft rock strata, improve tunnel strength factor, reduce the plastic zone of surrounding rock. This paper provides theoretical basis for the design of pipe roof and bolt.

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3D Numerical Analysis of Soil Structure Interaction Behaviors of Pipe Jacking Construction

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.204-208.534 ◽

2012 ◽

Vol 204-208 ◽

pp. 534-538 ◽

Cited By ~ 3

Author(s):

Wen Tsung Liu ◽

Xu Yan Lu

Keyword(s):

Numerical Analysis ◽

Soil Structure ◽

Soil Improvement ◽

Ground Movement ◽

Science Park ◽

Tunnel Excavation ◽

Contraction Ratio ◽

Pipe Jacking ◽

Interaction Behaviors ◽

Plaxis 3D

This study is analyzed by numerical analysis using finite element method program of Plaxis-3D Tunnel at Kaohsiung Science Park in Taiwan. It probes the risk of tunneling procedure adopting pipe jacking construction (PJC) with man–made excavation. The main parameters of numerical calculation in this research include advancement size, soil improvement ratio and void contraction ratio, etc. Those parameters are calculated to displacement and stress distribution and we get ground movement, settlement at crown and heave at invert of tunnel excavation to assess the security. This study finds that it is safe by excavation using PJC with man-made while the gap has to be less than 38mm. Actually, the gap is 100 ~ 150mm under PJC with man-made, and it will result in high risk. Therefore, the PJC with shield has more security than other methods through monitoring ground settlement.

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New Construction Technology of a Shallow Tunnel in Boulder-Cobble Mixed Grounds

Advances in Civil Engineering ◽

10.1155/2020/5686042 ◽

2020 ◽

Vol 2020 ◽

pp. 1-20 ◽

Cited By ~ 6

Author(s):

Tong Liu ◽

Yujian Zhong ◽

Zhihua Feng ◽

Wei Xu ◽

Feiting Song ◽

...

Keyword(s):

Surrounding Rock ◽

Construction Technology ◽

Construction Process ◽

Tunnel Excavation ◽

Supporting System ◽

Highway Tunnel ◽

Bulk Medium ◽

New Construction ◽

Secondary Lining ◽

Design And Construction

As a typical granular bulk medium, problems are common in boulder-cobble mixed grounds, such as easy collapse and instability and difficult effective support for large-section tunnel excavation. Tunnels constructed in BCM grounds are rare still, and there is a big gap between the design and construction of tunnels. Based on the Nianggaicun highway tunnel crossing the BCM grounds, the construction technology of tunnel in BCM grounds is studied by means of literature investigation and field survey. Here are the main conclusions: the overall deformation of surrounding rock is quite small; the pressure distribution of surrounding rock is small and loose pressure is dominant, and the safety reserve of secondary lining is large. The deformation process of surrounding rock concentrates on the construction stage. During the construction process, there are many problems, such as serious overexcavation, difficulty of bolt penetration, and continuous rock fall. In this paper, a three-bench complementary cyclic excavation method is proposed, which replaces the original CD and CRD methods. Meanwhile, the supporting system is optimized. The results show that the disturbance of surrounding rock is reduced, while the safety of construction process and the reliability of structure are increased. The new excavation method and optimized supporting system are expected to fill the gap between design and construction of tunnel in BCM grounds and provide reference for construction of such tunnels in the future.

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Analysis of Seepage Field of Highway Tunnel Excavation by Finite Difference Method

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.638-640.798 ◽

2014 ◽

Vol 638-640 ◽

pp. 798-803

Author(s):

Yong Tao Zhang

Keyword(s):

Finite Difference ◽

Circulatory System ◽

Surrounding Rock ◽

Design Parameters ◽

Seepage Field ◽

Tunnel Excavation ◽

Highway Tunnel ◽

Geological Conditions ◽

Fracture Development ◽

The Stability

As the excavation of tunnels, there are new channels of the groundwater drainage. The original supply of the circulatory system has been destroyed. The effects of groundwater to rock mass of surrounding rock are aggravated. In this paper, combined with a new highway tunnel project, the model is built according to the design parameters and the site engineering geological conditions of the tunnel. The fluid-structure interaction module of the finite difference software FLAC3D is used for the research on tunnel excavation. The distribution of seepage field, the stability of surrounding rock and rock deformation under saturated conditions during the tunnel excavation have been analyzed. The simulation results have certain guiding meaning on fracture development, the stability design of tunnels in water-rich stratum and the design and construction of anti-drainage.

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