地震工程中颗粒状超材料动力分析的Drucker-prager模型

A.A. Al' Shemali A.A.
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引用次数: 3

摘要

开发保护建筑物和构筑物在地震作用下免受土壤传递给它们的振动的方法是迄今为止极为重要的问题。其中一种现代方法是地震垫。本研究的目的是研究在建筑物基础下添加颗粒状超材料垫层对降低地震横波影响的有效性。采用莫尔-库仑模型的有限元分析来实现这一目标。该有限元模型由一个10层上部结构组成,上部结构位于板基础上,上部结构下有一层颗粒状超材料。分析了影响这些超材料力学性能的五个变量(密度-黏聚力-内摩擦角-杨氏模量-泊松比)在两种不同衬垫厚度下的取值。使用软件包Abaqus/CAE进行的动态分析显示,与没有这些超材料的情况下相比,颗粒状超材料在显著降低建筑物内的位移、速度和加速度方面的有效性。分析还表明,在研究的变量中,黏聚力是影响超材料耗散地震波能力的最大参数,而其他参数对超材料耗散地震波的影响不显著
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DRUCKER-PRAGER MODELS FOR DYNAMIC ANALYSIS OF GRANULAR METAMATERIALS IN EARTHQUAKE ENGINEERING
Problem of developing methods for protecting buildings and structures from the vibrations transmitted to them from the soil under the action of seismic effects is extremely important to date. One of these modern methods is seismic pads. The purpose of this work was to study the effectiveness of adding a pad of granu-lar metamaterials under the foundation of the building to decrease influence of seismic shear waves. The Finite Element Analysis of Mohr-Coulomb models was used to achieve this goal. The FE model consists of a ten-story superstructure rested on the slab foundation, under which there is a layer of granular metamateri-als. The values of five variables that affect the mechanical properties of these metamaterials were analyzed (density – cohesion – internal friction angle – Young's modulus – Poisson's ratio) for two different pad thicknesses. The dynamic analysis performed using the software package Abaqus/CAE showed the effec-tiveness of the granular metamaterials in their ability to significantly reduce magnitudes of displacements, velocities and accelerations in the building compared to the same values in the absence of these metamateri-als. The analysis also revealed that among the studied variables, the cohesion is the parameter most influenc-ing the effectiveness of metamaterials in their ability to dissipate seismic waves, while no significant effect was observed for the other parameters
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