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魏纲, 郝威, 魏新江, 王霄. 盾构隧道内竖向顶管施工室内模型试验研究[J]. 岩土工程学报, 2022, 44(1): 62-71. DOI: 10.11779/CJGE202201005
引用本文: 魏纲, 郝威, 魏新江, 王霄. 盾构隧道内竖向顶管施工室内模型试验研究[J]. 岩土工程学报, 2022, 44(1): 62-71. DOI: 10.11779/CJGE202201005
WEI Gang, HAO Wei, WEI Xin-jiang, WANG Xiao. Indoor model tests on the construction of vertical pipe jacking in shield tunnel[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(1): 62-71. DOI: 10.11779/CJGE202201005
Citation: WEI Gang, HAO Wei, WEI Xin-jiang, WANG Xiao. Indoor model tests on the construction of vertical pipe jacking in shield tunnel[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(1): 62-71. DOI: 10.11779/CJGE202201005

盾构隧道内竖向顶管施工室内模型试验研究

Indoor model tests on the construction of vertical pipe jacking in shield tunnel

  • 摘要: 传统的竖井施工方法对居民生活、环境及周边交通的影响大,在此背景下,竖向顶管技术得以快速发展。基于现有相关研究,设计并发明了一种竖向顶管室内模型试验装置,考虑了不同覆土高度、不同千斤顶顶升速度以及土层含水与否3种影响因素对竖向顶管施工的影响,研究盾构隧道内竖向顶管施工引起的盾构隧道内侧变形及地表竖向位移变化规律。研究结果表明:顶管顶升过程中,隧道内侧弯矩整体呈“W”型分布;在远离顶管开挖中心位置,地表竖向位移以沉降为主,而在靠近顶管开挖中心位置,地表沉降减小并随着顶管的不断顶升出现隆起现象。顶升速度较慢时,隧道及周边土体受到顶升的影响较大。当覆土高度在450 mm以内时,随着覆土高度的增加,地表沉降区测点沉降增大,此时隆起区位移测点受到的影响较小,但当覆土高度增高到500 mm时,地表隆起现象消失。土层加水后,隧道受到的影响较为剧烈,且会引起地表隆起值增大。

     

    Abstract: The traditional shaft construction method has a great impact on the residents' life, the environment and the surrounding traffic. With this background, the vertical pipe jacking technology has been developed rapidly. Based on the existing relevant researches, an indoor model test device for the vertical pipe jacking is designed and invented. Moreover, the influences of three factors, namely, different overburden heights, different jack lifting speeds, and whether the soil layer contains water or not, on the vertical pipe jacking construction are investigated. The changing laws of the deformation of the inner side of the shield tunnel and the vertical displacement of the ground surface due to the vertical pipe jacking construction in the shield tunnel are studied. The results show that the bending moment inside the shield tunnel presents a "W"-shaped distribution during the vertical pipe jacking process. When it is far from the center of the pipe jacking excavation, the vertical displacement of the ground surface is dominated by settlement, while near the center of pipe jacking excavation, the surface settlement decreases and presents an uplift phenomenon with the continuous jacking of the pipe. Furthermore, when the jacking speed is slow, it has a greater impact on the tunnel and the surrounding soil. When the overburden height is lower than 450 mm, with the increases of the overburden height, the settlement at measuring points in the surface settlement area increases. However, the overburden height has less effect on the displacement at measuring points in the uplift area. When the height of the covering soil increases to 500 mm, the surface uplift phenomenon disappears. The influences of the soil layer on the tunnel are more severe after adding water, which will cause the surface uplift value to increase.

     

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