3D Analysis interaction of piles groups under vertical load

Noura Houssou, S. Messast, Assia Abdelouahed
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引用次数: 1

Abstract

Abstract The study of the response of deep foundations under different types of stress was the subject of several studies, but it is always very useful to understand the phenomena accompanying the behavior of these foundations in contact with the ground, and to propose simple and more efficient approaches. This paper presents a numerical analysis of the response of a pile foundation subjected to axial load with taking account the soil-pile interaction. The analysis of the composite pile–soil system was performed using the Finite Element Method (FEM) using software Plaxis 3D tunnel. The pile- soil analyses and design is an interaction three dimensional problem, wherein, the applied load is transferred by a complicated interaction process between the piles and the soil. To reduce the analysis volume of interaction problems, it is necessary to have a relatively simple design procedure so that the preliminary design can provide adequate but reasonably accurate data for the final analysis. The method consists to replacing two configurations of pile group with a single equivalent pier of the same length and an equivalent diameter. This equivalent pier is described by his material properties that result of the homogenisation of the piles and the surrounding soil. In this study, two types of symmetric and asymmetric pile group configurations are examined. The numerical results of settlements were compared with the field measurements collected from case history, which showed good agreement. The pier equivalent method can decrease the interaction factor of 2×2 pile groups by 16% than the interaction factor of single pile group.
竖向荷载作用下群桩相互作用的三维分析
摘要研究不同类型应力作用下深层基础的响应是许多研究的主题,但了解这些基础与地面接触时的行为伴随现象,并提出简单有效的方法总是非常有用的。本文对考虑桩土相互作用的桩基础在轴向荷载作用下的响应进行了数值分析。采用Plaxis三维隧道软件对桩-土复合体系进行有限元分析。桩土分析与设计是一个相互作用的三维问题,其中荷载是通过桩土之间复杂的相互作用过程传递的。为了减少交互问题的分析量,有必要有一个相对简单的设计程序,使初步设计能够为最终分析提供充分而又合理准确的数据。该方法是用一个相同长度、相同直径的等效墩代替两组桩。这个等效墩是由他的材料特性所描述的,这是由于桩和周围土壤的均质化。本文研究了对称和非对称两种类型的群桩构型。将沉降数值计算结果与现场实测结果进行了比较,两者吻合较好。墩等效法可使2×2群桩相互作用系数比单群桩相互作用系数降低16%。
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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