Research on the Optimization and Deformation Control of High Speed Railway Bridge Tunnel with Small Radius Shield

王国富; 郑涛; 路林海; 孙捷城

doi:10.13409/j.cnki.jdpme.2017.01.016

您当前的位置：

首页 >

文章列表页 >

Research on the Optimization and Deformation Control of High Speed Railway Bridge Tunnel with Small Radius Shield

更新时间：2025-12-11

- Research on the Optimization and Deformation Control of High Speed Railway Bridge Tunnel with Small Radius Shield
- Vol. 37, Issue 1, Pages: 113-121(2017)
- 作者机构：
- 作者简介：
- 基金信息：
- DOI：10.13409/j.cnki.jdpme.2017.01.016
  CLC： 455.7
- Published：2017
- 稿件说明：
移动端阅览
[1]王国富,郑涛,路林海,孙捷城.小半径盾构下穿高铁桥支护优化及变形控制研究[J].防灾减灾工程学报,2017,37(01):113-121.

王国富, 郑涛, 路林海, et al. Research on the Optimization and Deformation Control of High Speed Railway Bridge Tunnel with Small Radius Shield[J]. 2017, 37(1): 113-121.
[1]王国富,郑涛,路林海,孙捷城.小半径盾构下穿高铁桥支护优化及变形控制研究[J].防灾减灾工程学报,2017,37(01):113-121. DOI： 10.13409/j.cnki.jdpme.2017.01.016.

王国富, 郑涛, 路林海, et al. Research on the Optimization and Deformation Control of High Speed Railway Bridge Tunnel with Small Radius Shield[J]. 2017, 37(1): 113-121. DOI： 10.13409/j.cnki.jdpme.2017.01.016.

摘要

以济南轨道交通R1线小半径盾构隧道下穿京沪高铁桥为工程依托

分析盾构掘进过程中对高铁桥的影响

并结合现场施工条件提出直线形、折线形、曲线形3种隔离桩布局形式

探讨其变形控制效果。结果表明:曲线盾构施工引起的周围土体应力状态及桥桩变形特征比盾构直线掘进更加复杂

在无隔离桩支护时

桥桩沉降超过1mm的规范设计要求

桩基水平位移高达3.112mm

高铁桥变形过大;对比分析3种隔离桩布局

直线形隔离桩变形控制效果较差

不能完全保证高铁桥安全

曲线形和折线形隔离桩可有效控制高铁桥变形

综合考虑经济性与施工便捷性

确定折线形隔离桩布局最优。研究成果对小半径盾构隧道隔离支护施工具有重要指导意义。

Abstract

Taking the Ji’nan rail transit line R1 in the Beijing-Shanghai high speed railway bridge with small radius of shield tunnel as the engineering background

we analyzed the impact of the shield tunnel process on the high speed railway bridge and combined with the construction conditions of straight line

polygonal-shape and curve three kinds of isolation pile layout

to investigate the deformation control effect.The results show that the stress state of the soil around the pile and bridge deformation characteristic curve caused by tunneling shield construction was more complex than straight shield

in the absence of isolation piles

piles settlement was more than1 mm and exceeded the design requirements of specification.The horizontal displacement of pile foundation was as high as 3.112 mm.For high speed railway bridge the deformation was too large.Comparative analysis of three kinds of isolated pile layout

straight line isolation pile can not guarantee the safety of high speed railway bridge

but curved and polygonal-shape pile isolation can effectively control the deformation of high speed railway bridge.Considering economy and ease of construction

we determined the optimal layout to be polygonal-shape pile.Study results have great guiding significance for small radius isolation shield tunnel support construction.

关键词

Keywords

references

长沙地铁典型地层盾构施工地表沉降分析与预测 [J]. 蒋彪,皮圣,阳军生,牟友滔. 地下空间与工程学报 . 2016(01)

盾构推进引起地表变形及深层土体水平位移分析 [J]. 梁荣柱,夏唐代,林存刚,俞峰. 岩石力学与工程学报 . 2015(03)

盾构近距侧穿高架桥桩的施工力学行为研究 [J]. 袁海平,王斌,朱大勇,陈水梅,韩治勇,姚华彦. 岩石力学与工程学报 . 2014(07)

地铁盾构隧道下穿京津城际高速铁路影响分析 [J]. 徐干成,李成学,王后裕,赵月,胡萍. 岩土力学 . 2009(S2)

曲线隧道盾构引起地表沉降分析 [J]. 周诗俊,王金安. 地下空间与工程学报 . 2007(05)

大坡度小半径线路情况对盾构法施工开挖面稳定性及管片受力影响的研究 [D]. 蒙晓莲. 北京交通大学 2011

盾构施工开挖面变形与破坏机理研究 [D]. 秦建设. 河海大学 2005

地铁隧道盾构法施工对周围环境影响的数值模拟 [D]. 张海波. 河海大学 2005

盾构隧道下穿施工对既有桥梁桩基础的影响及其控制技术研究 [D]. 韩秋石. 长安大学 2015

地铁盾构下穿高速铁路高架线变形分析及风险控制研究 [D]. 张立阳. 北京交通大学 2012

小半径、大坡度盾构隧道施工力学特性研究 [D]. 赵丹. 中南大学 2007

Views

243

下载量

CSCD

Alert me when the article has been cited

提交

Tools

Publicity Resources

No data

Related Author

No data

Related Institution

No data

⁰