[1]李彦民.列车荷载对下穿盾构隧道影响的模型试验[J].福建工程学院学报,2019,17(06):539-544.[doi:10.3969/j.issn.1672-4348.2019.06.005]
 LI Yanmin.Model test study on the influence of train load on shield tunnel[J].Journal of FuJian University of Technology,2019,17(06):539-544.[doi:10.3969/j.issn.1672-4348.2019.06.005]
点击复制

列车荷载对下穿盾构隧道影响的模型试验()
分享到:

《福建工程学院学报》[ISSN:2097-3853/CN:35-1351/Z]

卷:
第17卷
期数:
2019年06期
页码:
539-544
栏目:
出版日期:
2019-12-25

文章信息/Info

Title:
Model test study on the influence of train load on shield tunnel
作者:
李彦民
中铁十八局集团第一工程有限公司
Author(s):
LI Yanmin
The First Engineering Co., Ltd. of China Railway 18 Bureau Group
关键词:
列车荷载盾构隧道模型试验土压力结构应变
Keywords:
train load shield tunnel model test earth pressure structural strain
分类号:
U459.3
DOI:
10.3969/j.issn.1672-4348.2019.06.005
文献标志码:
A
摘要:
为研究地面线路运营对下穿盾构隧道结构的影响规律,基于相似比理论建立室内大型试验模型,模拟上部列车荷载作用下土层及其内部盾构隧道结构的受力变形过程,总结变形规律。结果表明,模型试验能够较好地反映外部荷载影响下土层以及内部盾构隧道结构的受力和变形特性;地表列车荷载在土层传递过程中,同一层面上沿地面线路方向的土压力大于两侧土压力,远离线路的地层受列车荷载影响相对较小,同一竖向截面土压力变化量由上至下逐渐减小,即外部荷载对浅层土的影响明显大于深层土;盾构隧道在地表列车行驶过程中,环向出现背车面受拉迎车面受压的受力特性,呈斜向压扁,纵向应变从中间交叉点向盾构隧道两侧逐渐减小,呈下凹压弯;盾构隧道埋深越小,受地表荷载影响越显著,增大一倍埋深对应纵向应变最大值减小约44.5%。
Abstract:
In order to study the influence law of ground line operation on the shield tunnel structure, an indoor large-scale test model was established based on the similarity ratio theory to simulate the stress deformation process of the soil layer and its internal shield tunnel structure under the upper train load, and the deformation law was summarized. Results show that the model test can better reflect the stress and deformation characteristics of the soil layer and the internal shield tunnel structure under the influence of external loads. During the transfer of surface train loads in different soil layers, the earth pressure along the surface line is greater than that on both sides on the same level, and the layer far away from the line is relatively less affected by the train load. The amount of earth pressure change in the same vertical section gradually decreases from top to bottom, that is, the external load has a greater influence on the shallow soil layer than on the deeper ones. During the running of the surface train, the shield tunnel is pulled in the circumferential direction of the back, and the bearing surface is compressed, which is obliquely flattened. The longitudinal strain gradually decreases from the middle intersection to the sides of the shield tunnel, and is concavely bent. The smaller the buried depth of the shield tunnel is, the more significantly it is affected by the surface load. Doubling the buried depth corresponds to a decrease of the maximum longitudinal strain of about 44.5%

参考文献/References:

[1] SHENG X, JONES C J C, THOMPSON D J. A comparison of a theoretical model for quasi-statically and dynamically induced environmental vibration from trains with measurements[J]. Journal of Sound and Vibration, 2003, 267(3): 621-635.[2] 黄晓吉. 交通荷载作用下饱和土体中衬砌隧道系统的动力响应研究[D]. 南昌: 南昌大学, 2015.[3] 谢伟平, 王国波, 于艳丽. 移动荷载引起的土变形计算[J]. 岩土工程学报, 2004, 26(3): 318-322.[4] 刘维宁. 列车荷载作用下黄土隧道的动态响应分析—现场试验与数值分析[D]. 兰州: 兰州铁道学院, 1983.[5] 陈鑫, 雷震宇. 盾构隧道—浮置板轨道系统振动分析[J]. 现代城市轨道交通, 2017(12): 29-34.[6] 胡婷. 列车移动荷载引起的路堤—地基振动与减振[D]. 杭州: 浙江大学, 2007.[7] 贾业明. 车荷载作用下浅埋管道性能的数值分析[D]. 合肥: 合肥工业大学, 2011.[8] 陈行, 晏启祥, 黄希. 列车振动荷载作用下高速铁路近距地铁平行隧道的动力响应特性分析[J]. 铁道标准设计, 2017(6): 116-119, 130.[9] 皮映星. 交通荷载下浅埋公路隧道衬砌的数值分析[J]. 科学咨询(科技·管理), 2013(12): 77-78.[10] 申昊, 唐晓武, 牛犇, 等. 车辆荷载作用下软土地基塑性变形的计算[J]. 岩土力学, 2013, 34(12): 3561-3566.[11] 符宾宾, 代刚. 软弱围岩下双连拱隧道的衬砌受力分析[J]. 四川建筑, 2005, 25(2): 88-90.[12] 李安杰. 浅埋偏压铁路隧道信息化监测施工技术[J]. 铁道建筑技术, 2014(S1): 208-211, 230.

相似文献/References:

[1]王鸣涛,吴波,张鹏辉.盾构隧道施工引起铁路路基沉降槽宽度系数计算方法[J].福建工程学院学报,2016,14(03):212.[doi:10.3969/j.issn.1672-4348.2016.03.002]
 Wang Mingtao,Wu Bo,Zhang Penghui.Calculation method of width parameters of railway roadbed settlement trough caused by shield tunnel construction[J].Journal of FuJian University of Technology,2016,14(06):212.[doi:10.3969/j.issn.1672-4348.2016.03.002]
[2]张鹏辉,吴波,杨思.盾构隧道下穿施工引起的铁路轨道沉降变形数值研究[J].福建工程学院学报,2016,14(04):332.[doi:10.3969/j.issn.1672-4348.2016.04.005]
 Zhang Penghui,Wu Bo,Yang Si.Numerical study on settlement and deformation of railway tracks induced by shield tunnelling crossing under railway track[J].Journal of FuJian University of Technology,2016,14(06):332.[doi:10.3969/j.issn.1672-4348.2016.04.005]
[3]赵勇博,吴波,王鸣涛.盾构隧道下穿铁路群引起路基沉降的数值研究[J].福建工程学院学报,2016,14(04):339.[doi:10.3969/j.issn.1672-4348.2016.04.006]
 Zhao Yongbo,Wu Bo,Wang Mingtao.Numerical study on embankment settlement induced by shield tunnelling under railway track groups[J].Journal of FuJian University of Technology,2016,14(06):339.[doi:10.3969/j.issn.1672-4348.2016.04.006]
[4]矫永刚.盾构开挖顶推力对下平行隧道影响的数值分析[J].福建工程学院学报,2020,18(01):46.[doi:10.3969/j.issn.1672-4348.2020.01.009]
 JIAO Yonggang.Numeric alanalysis of the influence of shield excavation jacking force on the lower parallel tunnel[J].Journal of FuJian University of Technology,2020,18(06):46.[doi:10.3969/j.issn.1672-4348.2020.01.009]

更新日期/Last Update: 2019-12-25