Supporting System and Monitoring Analysis of the Cut-Cover Tunnel in Shouyi Square of Wuhan

Xiu Wen Chi; Tao Fu; Zhi Liang He; Chi Lin

doi:10.4028/www.scientific.net/AMM.405-408.1252

Paper Titles

A Brief Discussion on Investment Control of Subway Construction Projects - Taking the Hangzhou Subway Project as the Example
p.1231

Cumulative Damage Monitoring of Shotcrete in Large-Span Tunnel under Multiple-Blastings
p.1235

3D Numerical Simulation Analysis and Pre-Estimation New Technology of Ground Collapse Caused by Subway Shield Construction
p.1239

Construction Technology of Super-Deep Diaphragm Wall under Complicated Geological and Hydraulic Conditions
p.1247

Supporting System and Monitoring Analysis of the Cut-Cover Tunnel in Shouyi Square of Wuhan
p.1252

Study on Stability of Loess Tunnel Based on Three-Dimensional Numerical Simulation in Different Excavation Length of Invert
p.1259

Numerical Simulation of Subway-Induced Environment Vibration
p.1264

Study on Design of Working Shaft for Oil and Natural Gas Pipe in Cross River Slurry Shield Tunnel
p.1268

Analyze Smoke Extraction Efficiency on Point Exhaust System of Side Direction for Immersed Tunnel Impact Shape of Smoke Dampers
p.1273

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 405-408Supporting System and Monitoring Analysis of the...

Supporting System and Monitoring Analysis of the Cut-Cover Tunnel in Shouyi Square of Wuhan

Abstract:

The 1.39km long tunnel in Shouyi Square of Wuhan is situated at the main artery of the city traffic. To ensure smooth construction of this tunnel project, a varieties of supporting systems such as rubble retaining wall, piles and steel supports, cantilever piles, pile-anchors, shotcrete-bolts are adopted. Meanwhile, safety monitoring is carried out using advanced monitoring instruments and methods with emphasis on the key cultural relic of Hubei province Honglou. The influence of the foundation excavation construction on Honglou is informed by analysis of monitoring result and the monitoring prediction provides forceful support for decision-making during the construction. In this way smooth construction of the foundation excavation and safety of Honglou are ensured.

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Periodical:

Applied Mechanics and Materials (Volumes 405-408)

Pages:

1252-1258

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.405-408.1252

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Online since:

September 2013

Authors:

Xiu Wen Chi, Tao Fu, Zhi Liang He, Chi Lin

Keywords:

Foundation Excavation, Monitoring Prediction, Safety Monitoring, Supporting System

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