Dynamic Response of Different Types of Shallow Foundation over Sandy Soils to Horizontal Harmonic Loading

IF 0.5 Q4 ENGINEERING, GEOLOGICAL International Journal of Geotechnical Earthquake Engineering Pub Date : 2015-01-01 DOI:10.4018/IJGEE.2015010101

Taha Ashoori, K. Pakiman

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引用次数: 1

Abstract

Increasing requirements of industries and research institutes to analytically results of interaction soil-foundation related systems, reveals the importance of the dynamic impedance functions than ever before. The dynamic impedance function relations are presented for mass less rigid foundations which is possible to obtain dynamic response of foundations for different frequencies and masses accordingly. In this study, the dynamic impedance functions were investigated using physical modeling tests on sandy soil with finite thickness soil stratum over bedrock. The tests were carried out inside a steel container of dimensions 1A—1A—0.8m in length, width and height respectively which was filled into container with Babolsar sand by using air â€“ pluviation technique after calibration test with relative density of 55.1 percent. The selected foundations were square and circular with same surface area and rectangular with length to width ratio of 2 that were investigated to determine effects of shape, inertia, embedment ratio, dynamic force amplitude and bedrock on horizontal impedance.

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不同类型砂质浅基础对水平谐波荷载的动力响应

工业和科研院所对相互作用的基础系统分析结果的要求越来越高，这表明动力阻抗函数比以往任何时候都更加重要。建立了低质量刚性基础的动力阻抗函数关系，从而可以得到不同频率和质量下基础的动力响应。在基岩上有有限厚度土层的砂土上，采用物理模拟试验研究了动态阻抗函数。试验在长、宽、高分别为1A-1A-0.8m的钢容器内进行，经相对密度为55.1%的校准试验后，采用空气 -灌注技术向容器内填充百保力沙。选取面积相同的正方形基础、圆形基础和长宽比为2的矩形基础，研究形状、惯性、埋置比、动力幅值和基岩对水平阻抗的影响。

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来源期刊

International Journal of Geotechnical Earthquake Engineering ENGINEERING, GEOLOGICAL-

CiteScore

1.90

自引率

25.00%

发文量