锚杆支护系统稳定双筒隧道门洞边坡

IF 0.1 Q4 ENGINEERING, CIVIL
Houssam Khelalfa, U. Sakalli, E. B. Aygar, O. Simsek, Bünyamin Aykan, H. Boulmaali
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引用次数: 0

摘要

摘要:岩石的行为为何会导致隧道开挖,在文献中尚不清楚,而在最初的研究中所计算的结果也不清楚。这就是为什么在隧道施工中最重要的事情是监测岩体的行为。有限元法还可以解析地表示岩体的静动力特性。具体地说,这使得用数值方法计算非常复杂物体的行为成为可能。本研究采用地面地震层析成像方法进行地球物理勘探,以揭示阿尔及利亚Jijel省德克萨斯隧道南入口水平的不同地层的岩性及其几何形状和地下地层的速度变化。本文还利用第二阶段二维程序对隧洞洞口的稳定性进行了二维数值研究。另一方面,将计算结果与现场实测进行对比,加强数值模拟。结果表明,锚杆支护系统在岩体位移方面取得了较好的效果,在隧洞洞口坍塌分析方面取得了较好的稳定性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Slope Stabilization of Twin-Tubes Tunnel Portal by Anchor Bolts Support System
Abstract It is not known in the literature why the behavior of rocks incurs the tunnel excavation and it remains unclear for what has been calculated in the initial studies. That’s why the most important thing to consider in tunnel construction works is to monitor rock mass behavior. The finite element method (FEM) can also analytically represent the static and dynamic behavior of the rock mass. Concretely, this makes it possible to calculate the behavior of very complex objects numerically. The present study embraces a geophysical prospecting which was carried out by the method of surface seismic tomography to reveal the lithology of the different formations and their geometry and the variation in speed of the subsurface formations at the level of the South portal of the Texana tunnel on Jijel province, in Algeria. The paper also consists in making a two-dimensional numerical study of the stability of the tunnel portals with the Phase.2 2D program. On the other hand, the calculation results will be compared with in-situ surveying to strengthen the numerical modeling. It can be concluded that the Anchor Bolts Support System gives good results in terms of displacement of the rock mass and satisfactory stability in terms of collapse analyzis of the tunnel portals.
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