Research of Xiangjiang Camp Road Underwater Tunnel Minimum Cover Thickness

Xian Feng Zhang

doi:10.4028/www.scientific.net/AMM.501-504.1653

Paper Titles

The Characteristic of Prestressed Concrete Pier Seismic Crack
p.1628

Finite Element Analysis of Earthquake Resistance Behaviors of T-Shaped Concrete-Filled Rectangular Composite Steel Tubular Columns
p.1633

Comparison Analysis of Typical Buildings in North-South Seismic Belt
p.1639

Research of Design and Construction Key Technology of Underwater Tunnel Interchange Segment
p.1647

Research of Xiangjiang Camp Road Underwater Tunnel Minimum Cover Thickness
p.1653

Geologic Environment Investigation of Underground Engineer in Chongqing
p.1657

Numerical Study on Fire Smoke Preventing and Exhausting of Underground Highway Tunnel
p.1662

Study on Eccentric Wear Mechanism of Pick-Shaped Cutter in Soft and Hard Interbedded Formation Tunnel
p.1668

Study on Layout Scheme of Sliding Rails for Immersed Tunnel Section Prefabrication Plant
p.1672

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 501-504Research of Xiangjiang Camp Road Underwater Tunnel...

Research of Xiangjiang Camp Road Underwater Tunnel Minimum Cover Thickness

Abstract:

The minimum rock cover thickness is the most important design parameters affecting cost and safety of the tunnel. Designing underwater tunnel need think project cost and risk and other factors to determine a reasonable minimum tunnel cover thickness. Under the actual conditions of Xiangjiang River Camp Road Tunnel, according to the current domestic and foreign common method for determining the minimum depth of underwater tunnel will not be able to meet the conditions surrounding the wiring, and it is difficult to play tunnels traffic relief function, while based on the Perform thorough research and theoretical analysis, putting forward the underwater tunnel determination method which is based on the engineering control measures.

You might also be interested in these eBooks

Advances in Civil and Structural Engineering III

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 501-504)

Pages:

1653-1656

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.501-504.1653

Citation:

Cite this paper

Online since:

January 2014

Authors:

Xian Feng Zhang

Keywords:

Cover Thickness, Engineering Controls, Numerical, Underwater Tunnel

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Yang jia-ling, Qiu xiang-Bo, Chen wei-zhong et al. Channel Tunnel and the minimum rock cover problem [J] Rock Mechanics and Engineering, 2003, 22 (s1) : 2132-2137.

Google Scholar

[2] Yang zhi-fa, Shang yan-jun, Liu ying. Research on geotechnical engineering analogy method [J] Journal of Engineering Geology, 1997, 5 (4): 299-305.

Google Scholar

[3] Hu zheng-cai, Yu hui. Study Norway tunnel project [J]. World tunnels, 1995 (2): 68 -76.

Google Scholar

[4] Liu Song. Explore the mine tunnel construction method minimum depth [J] Tunnel Construction, 2003, 23 (3): 4-6.

Google Scholar

[5] Palmstrom A. The Challenge of Subsea Tunneling [J]. Tunneling and Underground Space Technology, 1994, 9(2): 145-150.

Google Scholar

[6] Lu Ming, Grov E, Nilsen B et al. Experience undersea tunnel in Norway [J]. Rock Mechanics and Engineering, 2005 (23): 4219-4225.

Google Scholar

[7] Einar Broch etr. Support of Large Rock Caverns in Norway [J]. Tunneling and Underground Space Technology, 1996, 11 (1): 11-19.

DOI: 10.1016/0886-7798(96)00046-6

Google Scholar

[8] Xu Ji-yuan. Sea of tunnel in Japan [J] tunnel Renditions, 1990 (5): 54-56.

Google Scholar

[9] Kitamura A. Technical Development for the Seikan Tunnel [J], Tunneling and Underground Space Technology, 1986(1): 431-450.

Google Scholar

[10] Wu xiong, Yu qing-chun, Wang xiao-gang. Study of surface coal mining under water [J]. Rock Mechanics and Engineering, 2006, 5(25): 1029-1036.

Google Scholar

[11] Deng Xiang-yue, Han Ming-xin, Meng Bin. Discussed Coal Pillar waterproof design principles and calculation methods [J]. Coal technology, 2006 (6): 30 -35.

Google Scholar