地面荷载和衬砌支护作用下浅埋隧道的围岩应力解

石雷; 吴勇; 郭剑锋

doi:10.11988/ckyyb.20191152

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raybet体育在线院报 ›› 2020, Vol. 37 ›› Issue (12) : 105-111. DOI: 10.11988/ckyyb.20191152

岩土工程

地面荷载和衬砌支护作用下浅埋隧道的围岩应力解

石雷¹, 吴勇^2,3,4, 郭剑锋^2,3

作者信息 +

Analytical Solutions to Stress of Surrounding Rocks for Shallow Tunnel Considering Internal Pressure and Surface Load

SHI Lei¹, WU Yong^2,3,4,GUO Jian-feng^2,3

Author information +

文章历史 +

摘要

为研究地面荷载对有衬砌支护的浅埋隧道围岩应力的影响,在Verruijt研究复杂边界条件下浅埋隧道围岩应力问题的基础上,考虑隧道衬砌支护及地面荷载共同作用对浅埋隧道围岩应力稳定性的影响,求得了浅埋隧道围岩应力解并分析了多个因素对隧道围岩应力场的影响。结果表明:地面荷载越大,隧道腰部环向应力越大、底部环向应力越小;衬砌支护作用越大,隧道腰部环向应力越小、底部环向应力越大。地面荷载和衬砌支护作用不会改变浅埋隧道周边环向应力的分布规律及其受力最不利位置,但会改变其大小及作用方向。开挖过程中隧道拱腰处易出现土体失稳破坏。

Abstract

The aim of this study is to probe into the influence of ground load on the surrounding rock stress of shallow-buried tunnel with lining support. On the basis of Verruijt’s research on surrounding rock stress of shallow tunnel under complex boundary conditions, the analytical solution to surrounding rock stress under the combined action of lining support and ground surface load were obtained, and the influences of multiple factors on the stress field were examined. Results demonstrated that greater surface load resulted in larger circumferential stress at tunnel waist and smaller circumferential stress at tunnel bottom; larger internal pressure led to smaller circumferential stress at tunnel waist and greater circumferential stress at tunnel bottom. Ground load and lining support will not change the distribution law of circumferential stress around the shallow tunnel and its most unfavorable position, but will change its magnitude and direction. In the process of excavation, the soil is prone to suffer from instability and damage at the haunch of the tunnel.

导出引用

石雷, 吴勇, 郭剑锋. 地面荷载和衬砌支护作用下浅埋隧道的围岩应力解[J]. raybet体育在线院报. 2020, 37(12): 105-111 https://doi.org/10.11988/ckyyb.20191152

SHI Lei, WU Yong,GUO Jian-feng. Analytical Solutions to Stress of Surrounding Rocks for Shallow Tunnel Considering Internal Pressure and Surface Load[J]. Journal of Changjiang River Scientific Research Institute. 2020, 37(12): 105-111 https://doi.org/10.11988/ckyyb.20191152

中图分类号： U451.2

参考文献

[1] 王元清.基于模型试验的浅埋暗挖隧道施工过程中地表建筑物变形规律研究[J].隧道建设(中英文),2019,39(6):934-939.
[2] BOBET A. Analytical Solutions for Shallow Tunnels in Saturated Ground[J]. Journal of Engineering Mechanics, 2001, 127(12): 1258-1266.
[3] 饶军应,傅鹤林,谢涛,等.内压对管双椭圆洞室围岩应力影响的解析解[J].岩土力学,2016,37(1):76-86,95.
[4] 饶军应.岩溶介质中深埋洞室围岩应力弹性解析及应用研究[J].岩石力学与工程学报,2015,34(6):1296.
[5] VERRUIJT A. Deformations of an Elastic Half Plane with a Circular Cavity[J]. International Journal of Solids and Structures, 1998, 35(21): 2795-2804.
[6] VERRUIJTA. A Complex Variable Solution for a Deforming Circular Tunnel in an Elastic Half-plane[J]. International Journal for Numerical and Analytical Methods in Geomechanics, 1997, 21(2): 77-89.
[7] VERRUIJT A, BOOKER J R. Complex Variable Analysis of Mindlin’s Tunnel Problem[C]//Developments in Theoretical Geomechanics: Proceedings of the Booker Memorial Symposium). Sydney, Australia. November 16-17, 2000: 3-22.
[8] 陆文超,仲政,王旭.浅埋隧道围岩应力场的解析解[J].力学季刊,2003(1):50-54.
[9] 宋浩然,张顶立,房倩.浅埋海底隧道的围岩应力解析解[J].土木工程学报,2015,48(增刊1):283-288.
[10]宋浩然,张顶立,房倩.地面荷载及围岩自重作用下浅埋隧道的围岩应力解[J].中国铁道科学,2015,36(5):54-60.
[11]周敏,郑荣跃,刘干斌,等.内压和自重作用下浅埋管道围岩的应力解[J].力学与实践,2018,40(5):526-532,525.
[12]房营光,陈尤雯,黄文兴.地面超载条件下浅埋双圆形隧道围岩的粘弹性分析[J].世界隧道,1999(2):8-13.