Finite Element Method for Designing Large Section Underground Works by Sequential Excavation Method. Study Case: Lugoj-Deva Road Tunnel

M. Toderaș
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Abstract

Abstract Any underground work requires the knowledge and application of appropriate techniques and technologies in all stages of implementation of such a project. An important problem in the design of underground works is the knowledge of the characteristics and behaviour of the massif in which the work will be carried out. It depends on the choice of the excavation solution appropriate to the existing real conditions, which will influence the duration of the work and the costs associated with it. The objective of this paper was to analyse and compare the total deformations of the contour of the underground work, assuming that the work is performed by sequential excavation method (S.E.M.): excavation in the horizontal direction and in the vertical direction. The finite element numerical simulation method was used for the convergence analysis, which showed that the total displacements of the tunnel gallery wall are smaller for the horizontal sequential excavation (SEM) variant, both for the hypothesis of coefficient of pressure in state of rest having the value K0 = 0.6, as well as for the hypothesis in which K0 = 2.27.
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大断面地下工程序挖法设计的有限元法。研究案例:Lugoj-Deva公路隧道
任何地下工程都需要在工程实施的各个阶段了解和应用适当的技术和技术。地下工程设计中的一个重要问题是了解工程将在其中进行的地块的特征和行为。这取决于选择适合现有实际条件的挖掘解决方案,这将影响工作的持续时间和与之相关的费用。本文的目的是分析和比较地下工程轮廓的总变形,假设该工程采用顺序开挖法(S.E.M.):在水平方向和垂直方向开挖。采用有限元数值模拟方法进行收敛分析,结果表明,无论在静止状态压力系数K0 = 0.6的假设下,还是在K0 = 2.27的假设下,水平顺序开挖(SEM)巷道巷道壁的总位移都较小。
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