基于FLAC3D液化场地桩基动力反应振动台试验数值分析方法
Numerical Simulation of Shake Table Test on Dynamic Response of Pile Foundation in Liquefiable Ground Using FLAC3D
- 防灾减灾工程学报 2022年42卷第3期 页码:454-463
- 作者机构:
1.青岛理工大学土木工程学院,山东 青岛 266520
2.哈尔滨工业大学土木工程学院,黑龙江 哈尔滨 150090
3.青岛双瑞海洋环境工程股份有限公司,山东 青岛 266101
- 作者简介:
苏雷(1986—),男,副教授,博士。主要从事土动力学与岩土地震工程方面的研究。E‑mail: sulei@qut.edu.cn
- 基金信息:国家自然科学基金项目(42072310;51808307)
DOI:10.13409/j.cnki.jdpme.20181228001
中图分类号: TU473.1收稿:2018-11-07,
修回:2018-12-28,
纸质出版:2022-06-28
- 稿件说明:
移动端阅览
苏雷,赵卓,毕建巍等.基于FLAC3D液化场地桩基动力反应振动台试验数值分析方法[J].防灾减灾工程学报,2022,42(03):454-463.
SU Lei,ZHAO Zhuo,BI Jianwei,et al.Numerical Simulation of Shake Table Test on Dynamic Response of Pile Foundation in Liquefiable Ground Using FLAC3D[J].Journal of Disaster Prevention and Mitigation Engineering,2022,42(03):454-463.
苏雷,赵卓,毕建巍等.基于FLAC3D液化场地桩基动力反应振动台试验数值分析方法[J].防灾减灾工程学报,2022,42(03):454-463. DOI: 10.13409/j.cnki.jdpme.20181228001.
SU Lei,ZHAO Zhuo,BI Jianwei,et al.Numerical Simulation of Shake Table Test on Dynamic Response of Pile Foundation in Liquefiable Ground Using FLAC3D[J].Journal of Disaster Prevention and Mitigation Engineering,2022,42(03):454-463. DOI: 10.13409/j.cnki.jdpme.20181228001.
摘要
液化场地桩基动力响应是岩土地震工程领域重要的研究课题,而研究液化场地桩基动力响应有效的方法包括大型物理模型试验和数值模拟。鉴于此,针对已完成的振动台试验,采用FLAC
3D
有限差分计算程序,建立了液化场地桩‑土动力相互振动台试验数值模型。在数值模拟中,承台采用实体单元,桩采用桩单元,柱墩采用梁单元,考虑液化效应的饱和砂土采用Finn模型,粘土采用Mohr‑Coulomb模型。模型边界采用自由场边界,采用弹簧‑滑块‑裂缝单元模拟桩‑土界面。通过对比振动台试验结果表明:建立的有限差分数值模型能够再现结构和地基的动力响应,进而验证了数值模型的可靠性。同时,分析了引起数值计算结果与试验结果差异的主要原因。所采用的数值分析方法对类似布置的桩‑土相互作用数值分析提供参考与借鉴。
Abstract
Dynamic response on pile foundation in the liquefiable ground is an important research topic in the field of geotechnical earthquake engineering. The effective method for exploring dynamic response on pile foundation in liquefiable ground includes large-scale physical model tests and numerical simulations. Based on the finished shake table test, a numerical model of the shake table test on dynamic soil-pile interaction is established using the finite difference program FLAC
3D
in this study. In the numerical model, the pile cap and the pile are represented by the solid element and the pile element, respectively. The pier is modeled by the beam element. The saturated sand is reproduced by the Finn model to consider the effect of liquefaction and the clay is simulated by the Mohr-Coulomb model. The free field boundary is used as the model boundary condition and the soil-pile interface is characterized by the spring-slider-gap element. The established finite difference numerical model can reproduce the dynamic response of structure and foundation. By comparing with the shake table test results, the simulation results validate the reliability of the numerical model. Meanwhile, the main reasons for the difference between computed and experimental results are presented and analyzed. The analytical method used in this study can provide the general reference for the numerical modeling of similar soil-pile interaction system configurations.
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references
Brown D A , Morrison C , Reese L C . Lateral load behavior of pile group in sand [J]. Journal of Geotechnical Engineering , 1987 , 114 ( 11 ): 1261 ‑ 1276 .
凌贤长 , 王东升 . 液化场地桩‑土‑桥梁结构动力相互作用振动台试验研究进展 [J]. 地震工程与工程振动 , 2002 , 22 ( 4 ): 51 ‑ 59 .
Ling X Z , Wang D S . Study on shaking table test for seismic interaction of pile‑soil‑bridge structure in case of soil liquefaction caused by earthquake [J]. Earthquake Engineering and Engineering Dynamics , 2002 , 22 ( 4 ): 51 ‑ 59 . (in Chinese)
阎贵平 , 项海帆 . 具有单排桩基梁式桥墩的实用延性抗震验算方法研究 [J]. 土木工程学报 , 1993 , 26 ( 2 ): 48 ‑ 57 .
Yan G P , Xiang H F . A simplified method for ductile aseismic design of bridge piers with single row pile foundation [J]. China Civil Engineering Journal , 1993 , 26 ( 2 ): 48 ‑ 57 . (in Chinese)
Tokimatsu K , Suzuki H . Pore water pressure response around pile and its effects on p‑y behavior during soil liquefaction [J]. Soil and Foundations , 2004 , 44 ( 6 ): 101 ‑ 110 .
Yang E K , Jeong S S , Kim J H , et al . Dynamic p‑y backbone curves from 1g shaking table tests [C]∥ Transportation Research Board 88th Annual Meeting , Washington, DC , 2009 : 1 ‑ 16 .
Yao S , Kobayashi K , Yoshida N , et al . Interactive behavior of soil‑pile‑superstructure system in transient state to liquefaction by means of large shake table tests [J]. Soil Dynamics and Earthquake Engineering , 2004 , 24 ( 5 ): 397 ‑ 409 .
Chau K T , Shen C Y , Guo X . Nonlinear seismic soil‑pile‑structure interactions: shaking table tests and FEM analyses [J]. Soil Dynamics and Earthquake Engineering , 2009 , 29 ( 2 ): 300 ‑ 310 .
Cubrinovski M , Ishihara K , Furukawazono K . Analysis of full‑scale tests of piles in deposits subjected to liquefaction [C]∥ 2nd International Conference on Earthquake Geotechnical Engineering , Lisbon, Portugal , 1999 .
刘惠珊 , 陈克景 . 液化土中的桩基试验 [J]. 工程抗震 , 1991 , 2 : 19 ‑ 23 .
Liu H S , Chen K J . The test on pile foundation in liquefiable soil [J]. Earthquake Resistant , 1991 , 2 : 19 ‑ 23 . (in Chinese)
冯士伦 . 可液化土层中桩基横向承载特性研究 [D]. 天津 : 天津大学 , 2004 .
Feng S L . The research on the lateral bearing behavior of the pile foundation in liquefiable soil [D]. Tianjin : Tianjin University , 2004 . (in Chinese)
唐亮 , 凌贤长 , 徐鹏举 , 等 . 可液化场地桥梁群桩‑独柱墩结构地震反应振动台试验研究 [J]. 土木工程学报 , 2009 , 42 ( 11 ): 102 ‑ 108 .
Tang L , Ling X Z , Xu P J , et al . Shaking table tests for seismic response of pile‑supported bridge structure with single‑column pier in liquefiable ground [J]. China Civil Engineering Journal , 2009 , 42 ( 11 ): 102 ‑ 108 . (in Chinese)
Chen C Y , Martin G R . Soil‑structure interaction for landslide stabilizing piles [J]. Computers and Geotechnics , 2002 , 29 ( 5 ): 363 ‑ 386 .
Martin G R , Chen C Y . Response of piles due to lateral slope movement [J]. Computers and Structures , 2005 , 83 ( 8‑9 ): 588 ‑ 598 .
Wang Z L , Makdisi F I , Egan J . Practical applications of a nonlinear approach to analysis of earthquake⁃induced liquefaction and deformation of earth structures [J]. Soil Dynamics and Earthquake Engineering , 2006 , 26 ( 2‑4 ): 231 ‑ 252 .
童立元 , 王斌 , 刘义怀 . 地震地基液化大变形对桥梁桩基危害性三维数值分析 [J]. 交通运输工程学报 , 2007 , 7 ( 3 ): 91 ‑ 94 .
Tong L Y , Wang B , Liu Y H . 3‑D numerical analysis of large subsoil liquefaction distortion influence resulted from earthquake on bridge pile foundation [J]. Journal of Traffic and Transportation Engineering , 2007 , 7 ( 3 ): 91 ‑ 94 . (in Chinese)
李雨润 , 张玉彬 , 潘鑫鑫 . 基于FLAC3D群桩侧向动力特性试验与数值模拟对比研究 [J]. 地震工程与工程振动 , 2016 , 36 ( 3 ): 33 ‑ 39 .
Li Y R , Zhang Y B , Pan X X . Test and numerical simulation comparative study for lateral dynamic characteristics of group‑pile foundation based on FLAC 3D [J]. Earthquake Engineering and Engineering Dynamics , 2016 , 36 ( 3 ): 33 ‑ 39 . (in Chinese)
李雨润 , 邹泽 , 潘鑫鑫 , 等 . 对称双斜桩侧向响应振动台试验与数值模拟 [J]. 地震工程与工程振动 , 2018 , 38 ( 5 ): 221 ‑ 230 .
Li Y R , Zou Z , Pan X X , et al . Lateral response of symmetrically assembled double batter piles of shaking table test and numerical simulation [J]. Earthquake Engineering and Engineering Dynamics , 2018 , 38 ( 5 ): 221 ‑ 230 . (in Chinese)
李雨润 , 潘鑫鑫 , 陈张升 , 等 . 对称双斜桩侧向动力响应特性试验研究 [J]. 地震工程与工程振动 , 2017 , 37 ( 1 ): 32 ‑ 39 .
Li Y R , Pan X X , Chen Z S , et al . Test research on lateral dynamic response characteristic for symmetrical double inclined pile [J]. Earthquake Engineering and Engineering Dynamics , 2017 , 37 ( 1 ): 32 ‑ 39 . (in Chinese)
Koyama K , Sunasaka Y , Morioka Y , et al . Seismic safety evaluation of an existing tank supported by piles in liquefiable ground [C]∥ 12th World Conference on Earthquake Engineering , Auckland, New Zealand , 2000 .
Varun , Assimaki D . Integrating soil‑structure interaction analyses of pile‑supported wharfs in seismic risk management of port systems [C]∥ Geotechnical Earthquake Engineering and Soil Dynamics Congress IV , 2008 : 1 ‑ 10 .
Bhattacharya S , Adhikari S , Alexander N A . A Simplified method for unified buckling and free vibration analysis of pile‑supported structures in seismically liquefiable soils [J]. Soil Dynamics and Earthquake Engineering , 2009 , 29 ( 8 ): 1220 ‑ 1235 .
Liyanathirana D S , Poulos H G . Numerical simulation of soil liquefaction due to earthquake loading [J]. Soil Dynamics and Earthquake Engineering , 2002 , 22 ( 7 ): 511 ‑ 523 .
Klar A , Frydman S , Baker R . Seismic analysis of infinite pile groups in liquefiable soil [J]. Soil Dynamics and Earthquake Engineering , 2004 , 24 ( 8 ): 565 ‑ 575 .
Sarkar R , Maheshwari B K . Influence of soil nonlinearity and liquefaction on dynamic response of pile groups [C]∥ 14th World Conference on Earthquake Engineering , Beijing, China , 2008 .
Zhao C , Boris J . Numerical modeling and simulation of pile in liquefiable soil [J]. Soil Dynamics and Earthquake Engineering , 2009 , 29 ( 11‑12 ): 1405 ‑ 1416 .
苏雷 . 可液化场地群桩‑土动力相互作用p‑y曲线研究 [D]. 哈尔滨 : 哈尔滨工业大学 , 2011 .
Su L . P‑y curve of dynamic soil‑pile group interaction in liquefying ground [D]. Harbin : Harbin Institute of Technology , 2011 . (in Chinese)
陈清军 , 赵云峰 , 王汉东 , 等 . 振动台模型试验中地基土域的数值模拟 [J]. 力学季刊 , 2002 , 23 ( 3 ): 407 ‑ 411 .
Chen Q J , Zhao Y F , Wang H D , et al . Numerical simulation for soil domain in shaking table model test [J]. Chinese Quarterly of Mechanics , 2002 , 23 ( 3 ): 407 ‑ 411 . (in Chinese)
Itasca , FLAC 3 D . Fast Lagrangian analysis of continua in 3‑dimensions, version 3 . 0 , manual[EB/OL]. Itasca , Minnesota, 2002.
王根龙 , 林玮 , 蔡晓光 . 基于Finn本构模型的饱和砂土地震液化分析 [J]. 地震工程与工程振动 , 2010 , 30 ( 3 ): 178 ‑ 184 .
Wang G L , Lin W , Cai X G . Seismic liquefaction analysis of saturated sand soil based on Finn constitutive model [J]. Earthquake Engineering and Engineering Dynamics , 2010 , 30 ( 3 ): 178 ‑ 184 . (in Chinese)
韩爱民 , 肖军华 , 梅国雄 . 横向流动土体作用下的群桩反应性状 [J]. 岩土工程学报 , 2005 , 27 ( 12 ): 1463 ‑ 1467 .
Han A M , Xiao J H , Mei G X . Behavior of pile groups subject to excavation‑induced lateral soil movement [J]. Chinese Journal of Geotechnical Engineering , 2005 , 27 ( 12 ): 1463 ‑ 1467 . (in Chinese)
Kuhlemeyer R L , Lysmer J . Finite element method accuracy for wave propagation problems [J]. Journal of the Soil Mechanics and Foundations Division , 1973 , 99 (SM 5 ): 421 ‑ 427 .
李冬来 , 熊巨华 . 软土场地上双柱式桥墩‑桩‑土相互作用体系地震反应特性的数值分析 [J]. 结构工程师 , 2009 , 25 ( 2 ): 115 ‑ 119 .
Li D L , Xiong J H . Numerical seismic analysis of double‑column bridge pier‑piles‑soil interaction systems in soft soils [J]. Structural Engineers , 2009 , 25 ( 2 ): 115 ‑ 119 . (in Chinese)
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