堤防地震液化数值模拟及动力反应分析 = Seismic liquefaction numerical simulation and dynamic response of levee embankment

为了评估青草沙水库在地震作用下的性状,利用FLIP程序分析堤基及上部堤防地震液化变形规律,比较了堤防不同位置处的残余变形、超静孔隙水压力比分布、有效应力路径等.结果表明:抗震设防烈度7度条件下,堤防结构的存在放大了地表的加速度;堤防残余变形主要发生在堤身和堤脚周围一定深度范围,地下12 m及以下土体残余变形很小;堤顶中心在地震作用下,有效高度下降较多,若此时库内处于高水位或洪水位或遭遇持续暴雨,可能发生溃堤.工程建设中,需对这些薄弱环节进行加固. To understand the performance of Qingcaosha reservoir under earthquake loa...

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Main Authors: 陈育民 Chen, Yumin, 仉文岗 Zhang, Wengang, 刘汉龙 Liu, Han-long
Other Authors: School of Civil and Environmental Engineering
Format: Article
Language:Chinese
Chinese
Published: 2013
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Online Access:https://hdl.handle.net/10356/94618
http://hdl.handle.net/10220/9003
http://www.cqvip.com/QK/90576A/201103/38395501.html
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spelling sg-ntu-dr.10356-946182019-12-06T18:59:15Z 堤防地震液化数值模拟及动力反应分析 = Seismic liquefaction numerical simulation and dynamic response of levee embankment 陈育民 Chen, Yumin 仉文岗 Zhang, Wengang 刘汉龙 Liu, Han-long School of Civil and Environmental Engineering DRNTU::Science::Geology::Structural geology 为了评估青草沙水库在地震作用下的性状,利用FLIP程序分析堤基及上部堤防地震液化变形规律,比较了堤防不同位置处的残余变形、超静孔隙水压力比分布、有效应力路径等.结果表明:抗震设防烈度7度条件下,堤防结构的存在放大了地表的加速度;堤防残余变形主要发生在堤身和堤脚周围一定深度范围,地下12 m及以下土体残余变形很小;堤顶中心在地震作用下,有效高度下降较多,若此时库内处于高水位或洪水位或遭遇持续暴雨,可能发生溃堤.工程建设中,需对这些薄弱环节进行加固. To understand the performance of Qingcaosha reservoir under earthquake loading, the seismic liquefaction of levee embankment was studied by the finite element analysis program for liquefaction process (FLIP) code. Residual deformation of different nodes, excess pore water pressure ratio and path of effective stress of different elements were compared. The computational results prove that the acceleration on the ground can be amplified by the levee; that the residual deformation of the soils under 12 meters becomes so little that it can be neglected; that the effective height is largely decreased and that it is very dangerous especially when it is in high or full storage capacity. All these weak points should be reinforced in project construction. Published version 2013-01-31T06:05:41Z 2019-12-06T18:59:15Z 2013-01-31T06:05:41Z 2019-12-06T18:59:15Z 2011 2011 Journal Article Chen, Y., Zhang, W. G., & Liu, H. L. (2011). Seismic liquefaction numerical simulation and dynamic response of levee embankment. Journal of PLA university of Science and Technology (natural science edition), 12(3), 239-244. https://hdl.handle.net/10356/94618 http://hdl.handle.net/10220/9003 http://www.cqvip.com/QK/90576A/201103/38395501.html 166458 Chinese zh Journal of PLA university of Science and Technology (natural science edition) © 2011 Journal of PLA university of Science and Technology. This paper was published in Journal of PLA university of Science and Technology and is made available as an electronic reprint (preprint) with permission of Journal of PLA university of Science and Technology. The paper can be found at the following official URL: [http://www.cqvip.com/QK/90576A/201103/38395501.html].  One print or electronic copy may be made for personal use only. Systematic or multiple reproduction, distribution to multiple locations via electronic or other means, duplication of any material in this paper for a fee or for commercial purposes, or modification of the content of the paper is prohibited and is subject to penalties under law. application/pdf
institution Nanyang Technological University
building NTU Library
country Singapore
collection DR-NTU
language Chinese
Chinese
topic DRNTU::Science::Geology::Structural geology
spellingShingle DRNTU::Science::Geology::Structural geology
陈育民 Chen, Yumin
仉文岗 Zhang, Wengang
刘汉龙 Liu, Han-long
堤防地震液化数值模拟及动力反应分析 = Seismic liquefaction numerical simulation and dynamic response of levee embankment
description 为了评估青草沙水库在地震作用下的性状,利用FLIP程序分析堤基及上部堤防地震液化变形规律,比较了堤防不同位置处的残余变形、超静孔隙水压力比分布、有效应力路径等.结果表明:抗震设防烈度7度条件下,堤防结构的存在放大了地表的加速度;堤防残余变形主要发生在堤身和堤脚周围一定深度范围,地下12 m及以下土体残余变形很小;堤顶中心在地震作用下,有效高度下降较多,若此时库内处于高水位或洪水位或遭遇持续暴雨,可能发生溃堤.工程建设中,需对这些薄弱环节进行加固. To understand the performance of Qingcaosha reservoir under earthquake loading, the seismic liquefaction of levee embankment was studied by the finite element analysis program for liquefaction process (FLIP) code. Residual deformation of different nodes, excess pore water pressure ratio and path of effective stress of different elements were compared. The computational results prove that the acceleration on the ground can be amplified by the levee; that the residual deformation of the soils under 12 meters becomes so little that it can be neglected; that the effective height is largely decreased and that it is very dangerous especially when it is in high or full storage capacity. All these weak points should be reinforced in project construction.
author2 School of Civil and Environmental Engineering
author_facet School of Civil and Environmental Engineering
陈育民 Chen, Yumin
仉文岗 Zhang, Wengang
刘汉龙 Liu, Han-long
format Article
author 陈育民 Chen, Yumin
仉文岗 Zhang, Wengang
刘汉龙 Liu, Han-long
author_sort 陈育民 Chen, Yumin
title 堤防地震液化数值模拟及动力反应分析 = Seismic liquefaction numerical simulation and dynamic response of levee embankment
title_short 堤防地震液化数值模拟及动力反应分析 = Seismic liquefaction numerical simulation and dynamic response of levee embankment
title_full 堤防地震液化数值模拟及动力反应分析 = Seismic liquefaction numerical simulation and dynamic response of levee embankment
title_fullStr 堤防地震液化数值模拟及动力反应分析 = Seismic liquefaction numerical simulation and dynamic response of levee embankment
title_full_unstemmed 堤防地震液化数值模拟及动力反应分析 = Seismic liquefaction numerical simulation and dynamic response of levee embankment
title_sort 堤防地震液化数值模拟及动力反应分析 = seismic liquefaction numerical simulation and dynamic response of levee embankment
publishDate 2013
url https://hdl.handle.net/10356/94618
http://hdl.handle.net/10220/9003
http://www.cqvip.com/QK/90576A/201103/38395501.html
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