journal article
Open Access
Jan 01, 2021
Selection of the Key Segment Position for Trapezoidal Tapered Rings and Calculation of the Range of Jack Stroke Differences with a Predetermined Key Segment Position
Abstract
It is generally accepted that selecting the key segment position for trapezoidal tapered rings and controlling the shield machine advancement are challenging tasks for shield tunneling projects. In this work, we propose a method for calculating the key segment position based on the shield tail gap, jack stroke difference, and lining trend. To calculate all possible key segment positions other than that corresponding to the straight joint configuration, the shield tail gap that remains after segment assembly and the jack stroke difference corresponding to the advancement of the segmental lining and lining trend were computed; then, values and importance coefficients were assigned to these factors according to current operating conditions. To ensure that the segmental lining can be assembled successfully with the calculated key position, we established a model to calculate the change in the shield tail gap before and after shield machine advancement based on the spatial relationships of the shield machine, the currently installed segmental rings, and the segment to be installed. Further, we propose a method for calculating the range of jack stroke differences when the predetermined “permitted shield tail gap” and key position are provided. The method is based on the change in the shield tail gap calculated with the above model and the positional relationship between the shield machine’s actual axis and the designed tunnel axis after the current segmental ring has been assembled. The calculated range of jack stroke differences may then be used to control the advancement of the shield machine. We validated the viability of our methods by using the data of Phase 1 works on Line 2 of the Ningbo Rail Transit system.
Topics
No keywords indexed for this article. Browse by subject →
References
28
[1]
SwartzS. A. M. U. E. L. TzoberyS. H. I. M. I. andGaryB. Trapezoidal tapered ring-key position selection in curved tunnels 17th Rapid Excavation and Tunneling Conference. Seattle WA:Society for Mining Metallurgy and Exploration June 2005 San Diego California USA 957–969.
[2]
Ruiheng S. O. N. G. (2008)
[3]
Weiping L. I. "Study on core algorithm of typesetting system for universal wedge segments of shield tunnels" Modern Tunnelling Technology (2008)
[4]
Guoxu Z. H. A. O. "Tunneling lining segment design optimization analysis" China Railway Science (2003)
[5]
Chenghui S. O. N. G. "Study on structure design for universal shield segments of metro in soft soil" Chinese Journal of Underground Space and Engineering (2011)
[6]
Wencui Z. H. A. N. G. "Research on layout design and deviation correction of the general segment in shield tunnels" Construction Technology (2013)
[7]
Min H. U. "Key position selection in universal trapezoidal tapered rings of shield tunnels" Modern Tunnelling Technology (2009)
[8]
Zhihua Z. H. A. N. G. "Study on calculating method for composition of segments for shield tunnels" Chinese Journal of Underground Space and Engineering (2013)
[9]
Wei L. I. "Study on mechanical behavior and controlling assembling modes of universal segment lining for shield tunnel" Journal of the China Railway Society (2007)
[10]
Guangwu Y. A. N. G. "Study of the segment internal force during the construction of shield tunnel" China Railway Science (2009)
[11]
Junsheng C. H. E. N. "Three-dimensional finite element analysis of mechanical behaviors of shield tunnel segment during construction" Chinese Journal of Rock Mechanics and Engineering (2006)
[12]
Qianwei X. U. "Analysis of reasonable thrust force during tunnel excavation in homogeneous soft ground by use of earth pressure balance shield machine" Chinese Journal of Geotechnical Engineering (2008)
[13]
Zhiren D. A. I. "The mechanism and control principle of upward movements of sements at the rear of shield tail" China Railway Science (2013)
[14]
Xianghong L. I. "Experimental study on excavation behavior using model EPB shield with a diameter of 1.8 m" Chinese Journal of Geotechnical Engineering (2006)
[16]
Chun L. I. U. "Rings prediction model inconstruction of long-distance tunnel shield and its computer system realization" Journal of Geodesy and Geodynamics (2008)
[18]
Linxing G. U. A. N. "Effect of segment width on behavior of shield tunnel assembled in staggered pattern" Chinese Journal of Underground Space and Engineering (2015)
[19]
Heng Z. H. A. N. G. "Research on mechanical behaviour of segmental structure of shield tunnel in different strata" Chinese Journal of Underground Space and Engineering (2015)
[20]
Jingru Y. A. N. "Study on the calculation of position selection of universal ring segment in shield tunneling construction" Chinese Journal of Underground Space and Engineering (2019)
[21]
Tianwei F. E. N. G. "Research on risk assessment system of segments dislocation in metro tunnel" Chinese Journal of Underground Space and Engineering (2017)
[22]
Chengzhi R. U. A. N. "Research on the analysis method for segment layout in shield tunnelling" Modern Tunnelling Technology (2021)
[23]
Haibin W. U. "A study on curve fitting algorithm of curved shield tunnels assembled by universal wedge segments and its application" Journal of the China Railway Society (2016)
[24]
Changming H. U. "Calculation of jack stroke difference range and advancing control of shield machine under known point position of universal ring segment" China Railway Science (2015)
[25]
Guorong P. A. N. "Simplified calculation of general segment composition and correction control" Journal of Geodesy and Geodynamics (2014)
[26]
Chong X. U. "Research on the mechanical behavior of shield lining on granular soil across yellow river" Journal of Railway Engineering Society (2020)
[27]
Kan H. U. A. N. G. "Mechanical properties of segments when shield passes through upper-soft and lower-hard composite strata" Journal of Central South University (2020)
[28]
Xiuzhu D. O. N. G. "Study on calculation method of the deviation of lining ring axis for shield tunnel" China Civil Engineering Journal (2019)
Metrics
6
Citations
28
References
Details
- Published
- Jan 01, 2021
- Vol/Issue
- 2021(1)
- License
- View
Authors
Funding
Natural Science Project of Henan University of Technology
Award: 31401085
Basic Scientific Research Special Funds of Provincial Colleges and Universities
Award: 31401085
Cite This Article
Wencui Zhang, Jian Zhang, Jingru Yan, et al. (2021). Selection of the Key Segment Position for Trapezoidal Tapered Rings and Calculation of the Range of Jack Stroke Differences with a Predetermined Key Segment Position. Advances in Civil Engineering, 2021(1). https://doi.org/10.1155/2021/3606389
Related
You May Also Like
Durability Studies on Fly Ash Based Geopolymer Concrete Incorporated with Slag and Alkali Solutions
S. Nagajothi, S. Elavenil · 2022
133 citations
Pothole Detection Using Deep Learning: A Real‐Time and AI‐on‐the‐Edge Perspective
Muhammad Haroon Asad, Saran Khaliq · 2022
101 citations
Improvement of Grid Independence Test for Computational Fluid Dynamics Model of Building Based on Grid Resolution
Minhyung Lee, Gwanyong Park · 2020
93 citations
A Review of Multicriteria Assessment Techniques Applied to Sustainable Infrastructure Design
Ignacio J. Navarro, Víctor Yepes · 2019
60 citations
Prediction Compressive Strength of Concrete Containing GGBFS using Random Forest Model
Hai-Van Thi Mai, Thuy-Anh Nguyen · 2021
58 citations