三台阶七步开挖法黄土铁路隧道围岩变形规律研究

›› 2012, Vol. 26 ›› Issue (6): 54-58.

三台阶七步开挖法黄土铁路隧道围岩变形规律研究

路刚

（中铁十四局集团第二工程有限公司，山东泰安 27100）

收稿日期:2012-04-12 出版日期:2012-12-20 发布日期:2012-12-25
作者简介:路刚(1971-)，男，工程师，山东科技大学硕士在读,研究方向为铁路和公路工程施工组织和技术管理。

Surrounding Rock Mass Deformation of Tunnel in Loess Constructed Using Three-Benches-Seven-Steps Excavation Method

LU Gang

(The Second Engineering Co. Ltd., China Railway Shisi Group Corporation, Taian Shandong 271000)

Received:2012-04-12 Online:2012-12-20 Published:2012-12-25

摘要/Abstract

摘要： 三台阶七步开挖工法运用在大断面黄土隧道开挖，具有较好的效果，研究各个开挖步中围岩的变形与受力，对隧道施工过程中的安全、支护措施和质量控制以及施工结束后对结构内力的影响，具有重要的工程应用意义。以太兴铁路二标段向阳村大断面黄土铁路隧道Ⅴ级围岩加强段工程为背景，采用断面预埋压力计、应变计等监测仪器对围岩压力及钢拱架变形进行动态监测，掌握围岩的变形特性；同时利用有限差分软件，模拟七步开挖工法开挖过程，并用壳结构单元模拟初期支护，分析得出不同开挖步下围岩的塑性区、位移、应力以及初期支护的内力变化。结合数值计算和现场试验采集的数据，从而确定开挖过程中围岩变形规律和支护受力分布特征。

关键词: 大断面, 黄土隧道, 七步开挖工法, 围岩变形特性, 现场监测, 数值模拟

Abstract: The construction practice indicates that the good results could be achieved of large cross section tunnels constructed using ThreeBenches and SevenSteps tunnel excavation method. The change of stress and deformation within the rock mass during each step in the tunnel excavation has an important impact on the construction safety, supporting selection and construction quality control. It might also affect the stress in the lining structures after the construction. The case history of a large cross section tunnel construction in Xiangyangchun during Contract Two of Taixin Railway Line is presented. The Grade V rock mass improvement was required during tunneling. During the construction, the tunnel was instrumented using pressure cells, strain gages. The stress and deformation of the rock mass as well as the steel arch supported are monitored. The tunnel excavation sequence using SevenSteps method was also simulated by using finite difference software. The shell elements were used to simulate the initial supports. The deformation of the surrounding rock mass and the stress change of the supporting structures during the construction are determined by both instrumentation and numerical analysis.

Key words: Large Cross Section, Tunnel in Loess, Three-benches-Seven-stepes Excavation Method, Deformation Characteristics of Surrounding Rock Mass, Construction Instrumentation, Numerical Simulation

路刚. 三台阶七步开挖法黄土铁路隧道围岩变形规律研究[J]. , 2012, 26(6): 54-58.

LU Gang. Surrounding Rock Mass Deformation of Tunnel in Loess Constructed Using Three-Benches-Seven-Steps Excavation Method[J]. , 2012, 26(6): 54-58.

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