A simplified 3D model for existing tunnel response to piles construction

Bousbia Nawel, M. Salah, Houssou Noura
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Abstract

Abstract The construction and loading of deep foundations (piles) of high-rise buildings causes a considerable effect in terms of stresses and deformation and requires assessing their impact on the response of adjacent tunnels to deformations, particularly for pile foundations, which are often constructed in locations very close to existing tunnels. The execution process for piles structures generates displacements, stresses, and forces, which are transferred through the piles’ soil surrounding a nearby existing tunnel. The research presented in this paper has led to a significantly improved understanding of pile-tunnel interaction problem. It is crucial for the analysis of the impact of the pile construction on an existing tunnel. The treated topic appears in a setting of an urban environment, where we construct numerous profound foundations, sometimes in contact or adjacent to a. In this paper, the response of the existing tunnel under constructed pile process is studied. Numerical modeling was carried out using Plaxis3D software in which the Mohr-Coulomb Model (MC) has been used for modeling, while the piles/ tunnels are modeled as a linear elastic material. Furthermore, a parametric study is conducted, and its cases are investigated. The displacements and the stresses generated on the tunnel lining decreases with the increase in relative distance between pile and tunnel (spacing), the location/length of the pile from the tunnel, the pile diameter, the number of piles. We have also identified two geometrical parameters of the tunnel: shape section and thickness lining which play a prominent role in the interaction between an existing tunnel and a new pile to excavate.
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现有隧道桩施工响应的简化三维模型
高层建筑的深基础(桩)的施工和荷载会产生相当大的应力和变形影响,需要评估它们对相邻隧道的变形响应的影响,特别是对于桩基,这些桩基通常建在离现有隧道非常近的位置。桩结构的施工过程会产生位移、应力和力,这些位移、应力和力通过桩周围的土壤传递给附近的现有隧道。本文的研究使人们对桩隧相互作用问题的认识有了很大的提高。对既有隧道桩基施工的影响进行分析是至关重要的。所处理的课题出现在城市环境的背景下,在城市环境中,我们建造了许多深厚的基础,有时与a接触或相邻。本文研究了既有隧道在施工桩作用下的响应过程。采用Plaxis3D软件进行数值模拟,采用莫尔-库仑模型(Mohr-Coulomb Model, MC)进行建模,桩/隧道采用线弹性材料进行建模。此外,还进行了参数化研究,并对其进行了实例分析。随着桩与隧道的相对距离(间距)、桩距隧道的位置/长度、桩径、桩数的增加,隧道衬砌产生的位移和应力减小。我们还确定了隧道的两个几何参数:形状截面和衬砌厚度,它们在现有隧道和新开挖桩之间的相互作用中起着突出的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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