Abstract:Research purposes:As for the popular methods adopted in structure calculation for shield tunnel lining, random size division of lining element and random function mode of constraint spring acted on lining are always found. And ground overload are always directly applied on shield lining without considering stress reduction during its transformation process. So,concrete principle of lining element division and the function mode of ground spring should be put forward,and corresponding calculation theory should be put forward based on the mechanism and influences of ground overload.
Research conclusions:Form the study,it is concluded:(1)Little influences on lining stresses for different element length. Relatively fine lining element division is beneficial to lead a more accurate result.(2)The normal and tangential spring can be substituted by horizontal and vertical spring,then the spring value can be corresponded with geology survey report.(3)Ground overload can be proportionally reduced based on the loosed earth pressure or earth pressure arch,and the reduction factor is put forward correspondingly. Then,the positive relationship between ground overload and lining stress is made clear. (4)The scope of local ground overload and its relative positional relationship with tunnel,and the diffusion angle of ground overload should be considered together for the determination of the concrete influences on lining stresses. And different lining structure calculation models based on different scope of additional ground overload are put forward correspondingly. (5)This study can lead a reference for the calculation model and calculation theory in underground engineering.
戴志仁,王天明. 盾构隧道衬砌结构计算若干问题研究与探讨[J]. 铁道工程学报, 2015, 32(6): 45-50.
DAI Zhi-ren,WANG Tian-ming. Research and Discussion of Several Issues on Structural Calculation for Shield Tunnel Lining. Journal of Railway Engineering Society, 2015, 32(6): 45-50.
He Chuan, Zhang Jiangang, Su Zongxian. Structural Mechanical Characteristics of Underwater Shield Tunnel with Large Cross Section[M].Beijing:Science Press, 2010.
Dai Zhiren. Study and Discussion on the Issues about[2] Segment Design of Shield Tunne[ J].Journal of Railway Engineering Society , 2012 ( 6) : 65一70.
[3]
廖少明.圆形隧道纵向剪切传递效应研究[D]上海: 同济大学,2002.
Liao Shaoming. Research on the Effect of Longitudinal Shear Transfer on Circular Tunnel Lining[D]. Shanghai:Tongji University, 2002.
[4]
何川,张建刚,苏宗贤.大断面水下盾构隧道结构力学特性[M].北京:科学出版社,2010.
[6]
王梦恕,等中国隧道及地下工程修建技术[M].北京: 人民交通出版社,2010.
China Railway First Survey and Design Institute Group Co. Ltd. The Overall Project Design of Lanzhou Metro Line 1 at the First Stage[R].Xi' an:China Railway First Survey and Design Institute Group Co. Ltd, 2011.
Wang Mengshu, etc. Tunnelling and Underground Engineering Technology in China[M].Beijing:China Communications Press, 2010.
Wang Xiaomou, Yu Xueyong, Wei Jin, etc. Numerical Analysis of Vertical Additional Stress Spreading on Soft Clay Foundation With Dry Crust[J].Journal of Chang' an University(Natural Science Edition),2007 (3):37一41.
GB 50007-2011,Code for Design of Building Foundation[S].
Dai Zhiren. Discussion on Calculation Model for Lining Structure of Shield Tunnel[J].Journal of Railway Engineering Society , 2013 ( 6) : 52一58.
Zheng Yinren, Qiu Chenyu, Zhang Hong, etc. Exploration of Stability Analysisi Methods for Surrounding Rocks of Soil Tunnel [ J ].Chinese Journal of Rock Mechanics and Engineering, 2008(10):1968- 1980.
2015, Vol. 32 
版权所有 © 2014 《铁道工程学报》编辑部