Multiscale modelling of the seismic response of shallow foundations on saturated granular soils

U. El Shamy
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引用次数: 1

Abstract

ABSTRACT This paper presents a multiscale approach to analyse the seismic response of a spread-footing system founded on saturated granular soil deposits that might be susceptible to liquefaction. The pore-fluid is idealised as a continuum by using a homogenised form of Navier-Stokes equations that accounts for the presence of the solid particles. These particles are modelled at a microscale using the discrete element method. The foundation is idealised as a square rigid block by generating a group of glued particles. Computational simulations were conducted to investigate the response of spread-footings on saturated deposits when subjected to a seismic excitation. For the considered closely-spaced foundation system, it is possible to have a foundation settlement smaller than the free-field. Stress overlap between neighbouring footings could lead to an increase in soil stiffness and less susceptibility to pore-pressure build-up and volume decrease compared with the free-field. The majority of the foundation settlement occurs during shaking, whereas settlement continues to accumulate post shaking in the free-field. Evaluation of the contribution of base and lateral walls of the foundation to the lateral response of the footing showed that the predominant contributors were the base shear force and walls normal to the direction of shaking.
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饱和颗粒土浅层地基地震响应的多尺度模拟
本文提出了一种多尺度方法来分析建立在可能容易液化的饱和颗粒土沉积物上的扩展基础系统的地震反应。孔隙流体被理想化为一个连续体,通过使用匀质形式的Navier-Stokes方程来解释固体颗粒的存在。用离散元法在微观尺度上模拟这些粒子。通过产生一组胶合颗粒,基础被理想地设计为方形刚性块。通过计算模拟,研究了饱和地基上伸展基础在地震作用下的响应。对于所考虑的紧密间距基础体系,地基沉降可能小于自由场。与自由场地相比,邻近基础之间的应力重叠可能导致土壤刚度增加,对孔隙压力积聚和体积减小的敏感性降低。地基沉降主要发生在震动过程中,而在自由场中,震动后沉降继续累积。基础剪力和侧墙对基础侧移响应的贡献分析表明,基础剪力和侧墙对基础侧移响应的贡献最大。
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来源期刊
CiteScore
3.80
自引率
0.00%
发文量
27
期刊介绍: Geomechanics is concerned with the application of the principle of mechanics to earth-materials (namely geo-material). Geoengineering covers a wide range of engineering disciplines related to geo-materials, such as foundation engineering, slope engineering, tunnelling, rock engineering, engineering geology and geo-environmental engineering. Geomechanics and Geoengineering is a major publication channel for research in the areas of soil and rock mechanics, geotechnical and geological engineering, engineering geology, geo-environmental engineering and all geo-material related engineering and science disciplines. The Journal provides an international forum for the exchange of innovative ideas, especially between researchers in Asia and the rest of the world.
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