Journal of Shanghai Jiao Tong University (Science) ›› 2018, Vol. 23 ›› Issue (6): 746-757.doi: 10.1007/s12204-018-1979-9

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Prototype Loading Tests on Full-Ring Segmental Lining of Rectangular Shield Tunnel

ZHU Yeting (朱叶艇), ZHANG Zixin (张子新), HUANG Xin (黄昕), ZHANG Guanjun (张冠军)   

  1. (1. Department of Geotechnical Engineering, Tongji University, Shanghai 200092, China; 2. Shanghai Tunnel Engineering Co., Ltd., Shanghai 200233, China)
  • 出版日期:2018-12-01 发布日期:2018-12-07
  • 通讯作者: ZHU Yeting (朱叶艇) E-mail: 1210278theronzhu@tongji.edu.cn

Prototype Loading Tests on Full-Ring Segmental Lining of Rectangular Shield Tunnel

ZHU Yeting (朱叶艇), ZHANG Zixin (张子新), HUANG Xin (黄昕), ZHANG Guanjun (张冠军)   

  1. (1. Department of Geotechnical Engineering, Tongji University, Shanghai 200092, China; 2. Shanghai Tunnel Engineering Co., Ltd., Shanghai 200233, China)
  • Online:2018-12-01 Published:2018-12-07
  • Contact: ZHU Yeting (朱叶艇) E-mail: 1210278theronzhu@tongji.edu.cn

摘要: A series of full-scale loading tests are performed for a prospective subway tunnel with a rectangular shape including two reliability tests: one stagger-jointed three-ring reliability test, and one ultimate failure test on a single ring. Comprehensive measuring programs are designed to record the deformation of both lining structure and joints and the stresses of concrete, bolts and reinforcements. Experimental results show that in both the single-ring and three-ring loading cases, the long sides of tunnel cross section bend inwards while the short sides of tunnel cross section bend outwards. The inner part of joints opens while the outer part of joints closes at places experiencing positive moment and vice versa. Joint’s rotational stiffness varies at different locations. Concrete cracking and crushing are the chief damage modes, and they are closely related to the distribution of bending moment. Stagger-jointed fabrication significantly increases the overall rigidity of lining system, which thereby greatly reduces the deformation of both concrete lining and joints in comparison with the single-ring case. It is shown that the routinely-used uniform rigidity model is conservative and the preliminary design can be optimized by applying an effective rigidity ratio (ERR) of 0.5.

关键词: segmental lining , prototype loading test , rectangular shield tunnel , effective rigidity ratio (ERR) , ultimate failure

Abstract: A series of full-scale loading tests are performed for a prospective subway tunnel with a rectangular shape including two reliability tests: one stagger-jointed three-ring reliability test, and one ultimate failure test on a single ring. Comprehensive measuring programs are designed to record the deformation of both lining structure and joints and the stresses of concrete, bolts and reinforcements. Experimental results show that in both the single-ring and three-ring loading cases, the long sides of tunnel cross section bend inwards while the short sides of tunnel cross section bend outwards. The inner part of joints opens while the outer part of joints closes at places experiencing positive moment and vice versa. Joint’s rotational stiffness varies at different locations. Concrete cracking and crushing are the chief damage modes, and they are closely related to the distribution of bending moment. Stagger-jointed fabrication significantly increases the overall rigidity of lining system, which thereby greatly reduces the deformation of both concrete lining and joints in comparison with the single-ring case. It is shown that the routinely-used uniform rigidity model is conservative and the preliminary design can be optimized by applying an effective rigidity ratio (ERR) of 0.5.

Key words: segmental lining , prototype loading test , rectangular shield tunnel , effective rigidity ratio (ERR) , ultimate failure

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