地震荷载下交替层状可液化和不可液化土壤沉积中的桩基础

IF 2.6 2区 工程技术 Q2 ENGINEERING, CIVIL
Praveen M. Huded, Suresh R. Dash
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引用次数: 0

摘要

桩基础仍然是地震多发地区高层建筑的首选基础系统。在过去的地震中,桩基曾因液化而发生过故障。对可液化土壤中桩基的研究主要集中在两层或三层土壤剖面中的桩基行为。然而,在自然情况下,液化可能发生在可液化土层和不可液化土层的交替层中。然而,有关分层效应对桩基影响的实验和/或数值研究在文献中尚未得到广泛关注。世界上大多数设计规范都没有明确提及夹层不液化土层对桩基响应的影响。本研究以数值方法研究了端承桩在层状可液化和不可液化土层中的行为。研究发现,在分析中考虑夹层非液化土层的影响与忽略其影响时,运动弯矩会更大,并影响设计。因此,在可液化土层中忽略夹层非液化层的影响可能是一种非保守的设计方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pile foundation in alternate layered liquefiable and non-liquefiable soil deposits subjected to earthquake loading

Pile foundations are still the preferred foundation system for high-rise structures in earthquake-prone regions. Pile foundations have experienced failures in past earthquakes due to liquefaction. Research on pile foundations in liquefiable soils has primarily focused on the pile foundation behavior in two or three-layered soil profiles. However, in natural occurrence, it may occur in alternative layers of liquefiable and non-liquefiable soil. However, the experimental and/or numerical studies on the layered effect on pile foundations have not been widely addressed in the literature. Most of the design codes across the world do not explicitly mention the effect of sandwiched non-liquefiable soil layers on the pile response. In the present study, the behavior of an end-bearing pile in layered liquefiable and non-liquefiable soil deposit is studied numerically. This study found that the kinematic bending moment is higher and governs the design when the effect of the sandwiched non-liquefied layer is considered in the analysis as opposed to when its effect is ignored. Therefore, ignoring the effect of the sandwiched non-liquefied layer in a liquefiable soil deposit might be a nonconservative design approach.

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来源期刊
CiteScore
4.70
自引率
21.40%
发文量
1057
审稿时长
9 months
期刊介绍: Earthquake Engineering and Engineering Vibration is an international journal sponsored by the Institute of Engineering Mechanics (IEM), China Earthquake Administration in cooperation with the Multidisciplinary Center for Earthquake Engineering Research (MCEER), and State University of New York at Buffalo. It promotes scientific exchange between Chinese and foreign scientists and engineers, to improve the theory and practice of earthquake hazards mitigation, preparedness, and recovery. The journal focuses on earthquake engineering in all aspects, including seismology, tsunamis, ground motion characteristics, soil and foundation dynamics, wave propagation, probabilistic and deterministic methods of dynamic analysis, behavior of structures, and methods for earthquake resistant design and retrofit of structures that are germane to practicing engineers. It includes seismic code requirements, as well as supplemental energy dissipation, base isolation, and structural control.
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