Analysis and Control of Tunnel Structure Deformation Under Zero Overburden

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MODERN TUNNELLING TECHNOLOGY

2014, Vol. 51

Issue (3) :49-56 DOI:

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Analysis and Control of Tunnel Structure Deformation Under Zero Overburden

(1 Shanghai University, Shanghai 200072; 2 Shanghai Tunnel Engineering Co. Ltd., Shanghai 200082; 3 Shanghai Urban Construction Group Corporation, Shanghai 200122)

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Abstract The cut-and-cover method is normally used in the construction of works connecting surface roads and underground tunnels, which causes great environmental impacts to the ground. Ground Penetrating Shield Technology (GPST) is an effective way to solve this problem. Based on an experimental project, this paper demonstrates shield tunnel deformation control techniques, such as segment stabilization, synchronous grout control, and improvement of joint stiffness, by analyzing and calculating the influential factors of tunnel deformation. This extends the application of shield tunnelling and provides new ideas for tunnel planning and designing.

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	WU Hui-Ming-1
	2
	TANG
	XUAN 3

Keywords�� Shield tunnel Zreo Overburden GPST Structure deformation Segment stabilizer

Abstract�� The cut-and-cover method is normally used in the construction of works connecting surface roads and underground tunnels, which causes great environmental impacts to the ground. Ground Penetrating Shield Technology (GPST) is an effective way to solve this problem. Based on an experimental project, this paper demonstrates shield tunnel deformation control techniques, such as segment stabilization, synchronous grout control, and improvement of joint stiffness, by analyzing and calculating the influential factors of tunnel deformation. This extends the application of shield tunnelling and provides new ideas for tunnel planning and designing.

Keywords�� Shield tunnel, Zreo Overburden, GPST, Structure deformation, Segment stabilizer

published: 2013-11-26

Cite this article:

WU Hui-Ming-1, 2 , TANG etc .Analysis and Control of Tunnel Structure Deformation Under Zero Overburden [J] MODERN TUNNELLING TECHNOLOGY, 2014,V51(3): 49-56

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http://www.xdsdjs.com/EN/ �� http://www.xdsdjs.com/EN/Y2014/V51/I3/49

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