Numerical Analysis of the Single-Directionally Misaligned Segment Behavior of Hydraulic TBM Tunnel
-
Published:2024-07-16
Issue:7
Volume:14
Page:2198
-
ISSN:2075-5309
-
Container-title:Buildings
-
language:en
-
Short-container-title:Buildings
Author:
Li Fenglan12ORCID, Si Pengcheng2, He Yintao3, Wang Hui2, Zhang Zhixiao3, Zhao Shunbo2ORCID
Affiliation:
1. Xuchang Innovation Center of Intelligent Construction and Building Industrialization Technology, Zhongyuan Institute of Science and Technology, Zhengzhou 451400, China 2. Collaborative Innovation Center for Efficient Utilization of Water Resources, North China University of Water Resources and Electric Power, Zhengzhou 450046, China 3. Anyang Zhongzhou Water Supply Co., Ltd., Anyang 455000, China
Abstract
The misalignment of segments in installation is a common issue in the construction of TBM tunnels. This raises a question of whether misalignment affects the operation safety of a hydraulic TBM tunnel. Using a water transfer engineering project as an example, this paper built a three-dimensional finite element model composited with segment, grout layer and surrounding rock for the numerical analysis of the behavior of single-directionally misaligned segments. The crown or invert segment was separately misaligned towards to the center of segment ring in a value of 5 mm, 10 mm, 20 mm, 30 mm or 40 mm. The strength grade of the segment concrete was C50. A weaker surrounding rock composed of V-class rock was considered for the tunnel. The results indicate that the misalignment of the crown or invert segment, respectively, creates the tensile stress in the inner surface of the corresponding segment, the tensile stress will be over the limit of C50 concrete when the misalignment is over 30 mm, indicating a risk of concrete cracking. The contact surfaces of the segment ring basically remain in compression, and the locating pins between the segment rings exhibit an evident increase in tensile stress at misaligned positions. The key points that can be obtained from this study are that a special supervision is needed to ensure the accuracy of segment installation, and strengthening measures are needed for existing misaligned segments.
Funder
Fund for First-class Discipline Innovation Team of Henan, China (grant no.Fund for First-class Discipline Innovation Team of Henan, China
Reference39 articles.
1. Optimization of anchor groove and its forming techniques with permanent formwork for prestressed concrete lining of high-pressure water conveyance tunnel;Li;J. North China Univ. Water Resour. Electr. Power,2022 2. Wang, X., Behbahani, S., Iseley, T., Azimi, M., Wei, X., Wei, G., and Shi, Y. (2021). Vertical tunneling in China—A case study of a hydraulic tunnel in Beihai. Tunn. Undergr. Space Technol., 107. 3. Study on boring indexes and key issues of tunnel boring machine cluster construction of super-long tunnels;Deng;Tunn. Constr.,2021 4. Dynamic load prediction of tunnel boring machine (TBM) based on heterogeneous in-situ data;Sun;Autom. Constr.,2018 5. Huang, X., Liu, W., Zhang, Z., Zhuang, Q., Zhu, Y., Wang, Q., Kwok, C.Y., and Wang, S. (2020). Structural behavior of segmental tunnel linings for a large stormwater storage tunnel: Insight from full-scale loading tests. Tunn. Undergr. Space Technol., 99.
|
|