Prediction of pile settlement in an elastic soil

Farzaneh Naghibi; Gordon A. Fenton; D.V. Griffiths

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Prediction of pile settlement in an elastic soil

机译：弹性土中桩沉降的预测

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摘要

This paper presents a simple regression to predict settlement of a single floating pile supported by a homogeneous elastic soil and subjected to a vertical load. The regression, which is calibrated by a finite element model, allows the direct computation of the pile length required for serviceability limit state design of deep foundations.

机译：本文提出了一种简单的回归方法来预测由均质弹性土壤支撑并承受垂直载荷的单个浮桩的沉降。通过有限元模型校准的回归，可以直接计算深基础的使用寿命极限状态设计所需的桩长。

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来源
《Computers and Geotechnics》 |2014年第7期|29-32|共4页
作者
Farzaneh Naghibi; Gordon A. Fenton; D.V. Griffiths;
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作者单位

Department of Engineering Mathematics, Dalhousie University, Halifax, NS B3J 2X4, Canada;

Department of Engineering Mathematics, Dalhousie University, Halifax, NS B3J 2X4, Canada;

Department of Civil and Environmental Engineering, Colorado School of Mines, Golden, CO 80401, United States,Australian Research Council Centre of Excellence for Geotechnical Science and Engineering, University of Newcastle, Callaghan, NSW 2308, Australia;

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正文语种 eng
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关键词
Foundation settlement; Deep foundations; Finite element method; Design pile length;

机译：基金会结算;深厚的基础;有限元法;设计桩长;

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1. A new nonlinear method for vertical settlement prediction of a single pile and pile groups in layered soils [J] . Zhongjin Wang, Xinyu Xie, Jinchang Wang Computers and Geotechnics . 2012,第SEPa期

机译：层状地基中单桩和桩组竖向沉降的非线性预测新方法
2. A new approach for estimating the vertical elastic settlement of a single pile based on the fictitious soil pile model [J] . Zhang Yunpeng, Wu Wenbing, Jiang Guosheng, Computers and Geotechnics . 2021,第Juna期

机译：一种基于虚拟土桩模型估算单桩垂直弹性沉降的新方法
3. A novel soil-pile interaction model for vertical pile settlement prediction [J] . Yunpeng Zhang, Wenbing Wu, Haikuan Zhang, Applied Mathematical Modelling . 2021,第Nova期

机译：垂直桩沉降预测的新型土桩相互作用模型
4. Analysis of Pile Load Tests Data on Drilled Shafts in Sandy Soils of the Arabian Gulf Region Towards Assessment of Piles Load Bearing Capacity and Settlement Prediction Models [C] . A. Al-Homoud, M. F. Tarek, A. Mokhtar Offshore technology conference (OTC 2001) . 2001

机译：阿拉伯海湾地区沙质土壤中钻探桩的桩载试验数据分析，以评估桩的承载力和沉降预测模型
5. Prediction and performance of single piles in clay soils under vibratory loadings. [D] . Cambio, Domenica. 2012

机译：振动荷载下黏土中单桩的预测和性能。
6. Field Test of Excess Pore Water Pressure at Pile–Soil Interface Caused by PHC Pipe Pile Penetration Based on Silicon Piezoresistive Sensor [O] . Yonghong Wang, Xueying Liu, Mingyi Zhang, 2020

机译：基于硅压阻传感器的PHC管桩穿透引起桩-土界面超孔隙水压力的现场测试
7. Discussion: A non-linear approach for settlement prediction of single pile and pile groups under vertical load [O] . F. Castelli, E. Motta 2005

机译：讨论：垂直载荷下单桩和桩基沉降预测的非线性方法

Prediction of pile settlement in an elastic soil

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