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Numerical investigation of the effects of soil-structure and granular material-structure interaction on the seismic response of a flat-bottom reinforced concrete silo
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作者 Sonia Benkhellat Mohammed Kadri Abdelghani Seghir 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2024年第3期609-623,共15页
In this work,a numerical study of the effects of soil-structure interaction(SSI)and granular material-structure interaction(GSI)on the nonlinear response and seismic capacity of flat-bottomed storage silos is conducte... In this work,a numerical study of the effects of soil-structure interaction(SSI)and granular material-structure interaction(GSI)on the nonlinear response and seismic capacity of flat-bottomed storage silos is conducted.A series of incremental dynamic analyses(IDA)are performed on a case of large reinforced concrete silo using 10 seismic recordings.The IDA results are given by two average IDA capacity curves,which are represented,as well as the seismic capacity of the studied structure,with and without a consideration of the SSI while accounting for the effect of GSI.These curves are used to quantify and evaluate the damage of the studied silo by utilizing two damage indices,one based on dissipated energy and the other on displacement and dissipated energy.The cumulative energy dissipation curves obtained by the average IDA capacity curves with and without SSI are presented as a function of the base shear,and these curves allow one to obtain the two critical points and the different limit states of the structure.It is observed that the SSI and GSI significantly influence the seismic response and capacity of the studied structure,particularly at higher levels of PGA.Moreover,the effect of the SSI reduces the damage index of the studied structure by 4%. 展开更多
关键词 reinforced concrete silo perfectly matched layers soil-structure interaction granular material-structure interaction effective seismic input method damage index
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Soil-structure interaction of unsymmetrical trench installation culvert 被引量:8
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作者 陈保国 郑俊杰 鲁燕儿 《Journal of Southeast University(English Edition)》 EI CAS 2009年第1期94-98,共5页
The computation of the design load on culverts in the current Chinese General Code for Design of Highway Bridges and Culverts (CGCDHBC)is primarily based on the linear earth pressure theory, which cannot accurately ... The computation of the design load on culverts in the current Chinese General Code for Design of Highway Bridges and Culverts (CGCDHBC)is primarily based on the linear earth pressure theory, which cannot accurately reflect the changes in vertical loads on trench installation culverts. So the changes in vertical earth pressure and soil arching effect in the backfill for an unsymmetrical trench installation culvert are studied based on a full scale experiment and finite element (FE) simulation. The variation laws of foundation pressure and settlement are also analyzed. Meanwhile, the influence of eccentric load induced by an unsymmetrical trench installation on the interaction of a soil- structure system is discussed. Results show that soil arch is formed when the backfill on the culvert reaches a certain height. It can relieve the earth pressure concentration on the crest of the culvert, but it is instable. The earth pressures obtained by full scale experiment and numerical simulation are greater than those calculated by the current CGCDHBC method. The eccentric load effect on the culvert has a significant influence on the stress states and deformation of the soil-structure system. 展开更多
关键词 soil-structure interaction soil arching effect eccentric load effect full scale experiment numerical simulation
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Application of engineered compressible inclusions to mitigating soilstructure interaction issues in integral bridge abutments
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作者 Lila Dhar Sigdel Minghao Lu +3 位作者 Ahmed Al-qarawi Chin Jian Leo Samanthika Liyanapathirana Pan Hu 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE CSCD 2023年第8期2132-2146,共15页
The thermally induced cyclic loading on integral bridge abutments causes soil deformation and lateral stress ratcheting behind the abutment wall due to the expansion and contraction of the bridge deck.The forward and ... The thermally induced cyclic loading on integral bridge abutments causes soil deformation and lateral stress ratcheting behind the abutment wall due to the expansion and contraction of the bridge deck.The forward and backward movements of the abutment in response to the expansion/contraction of the bridge deck lead to the formation of settlement trough and surface heaving,frequently creating a bump at the bridge approach and increasing the lateral earth pressure behind the abutment.Measures to reduce the bump at the bridge approach,including several treatment methods,such as compaction of selected backfill materials,grout injection,installation of approach slab,and using a layer of compressible inclusion material behind the abutment were proposed.However,these guidelines still lack sufficient design details and there are limited experimental findings to validate design assumptions.In this paper,the use of engineered compressible materials to alleviate the lateral earth pressure ratcheting and settlement at the bridge approach is investigated.The comparative study is presented for the soil-inclusion,material-structure and soil-structure interactions for an integral bridge under three different backfill conditions,i.e.(a)sand,(b)sand and EPS geofoam,and(c)sand and Infinergy®.The study was conducted in a special large-scale test chamber with a semi-scale abutment to gain better insights into the soil-structure interaction(SSI).The kinematics and rearrangement of the soil during the cyclic loading have been investigated to identify the mitigating effects of compressible inclusions.The comparative study indicates that both compressible inclusions perform comparatively well,however,Infinergy®is a better alternative than the medium-density EPS geofoam,as it works more effectively to reduce the backfill settlement and heaving as well as soil ratcheting effects under cyclic translational movement. 展开更多
关键词 Integral bridge Cyclic loading Stress ratcheting Settlement bump Earth pressure distribution soil-structure interaction(ssi)
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Roles of soil-structure interaction and damping in base-isolated structures built on numerous soil layers overlying a half-space 被引量:1
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作者 C.S.Tsai C.I.Hsueh H.C.Su 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2016年第2期387-400,共14页
This study examines the roles of soil-structure interaction (SSI), higher modes, and damping in a base-isolated structure built on multiple layers of soil overlying a half space. Closed-form solutions for the entire... This study examines the roles of soil-structure interaction (SSI), higher modes, and damping in a base-isolated structure built on multiple layers of soil overlying a half space. Closed-form solutions for the entire system, including a superstructure, seismic isolator, and numerous soil layers overlying a half-space, were obtained. The formulations obtained in this study simply in terms of well-known frequencies and mechanical impedance ratios can explicitly interpret the dynamic behavior of a base-isolated structure interacting with multiple soil layers overlying a half-space. The key factors influencing the performance of the isolation system are the damping ratio of the isolator and the ratio of the natural frequency of the fixed-base structure to that of the isolated structure by assuming that the superstructure moves as a rigid body. This study reveals that higher damping in the base isolator is unfavorable to higher mode responses that usually dominate the responses of the superstructure and that the damping mechanism plays an important role in transmitting energy in addition to absorbing energy. It is also concluded that it is possible to design a soft soil layer as an isolation system for isolating vibration energy. 展开更多
关键词 base isolation seismic isolation soil-structure interaction closed- form solution higher-mode effects soilstratum passive control damping effects
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An overview of structure-soil-structure dynamic interaction research
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作者 王淮峰 《Journal of Chongqing University》 CAS 2011年第3期101-112,共12页
The concept of structure-soil-structure dynamic interaction was introduced and the research methods were summarized.Based on lots of documents,a systematic summary of the history and current situation of structure-soi... The concept of structure-soil-structure dynamic interaction was introduced and the research methods were summarized.Based on lots of documents,a systematic summary of the history and current situation of structure-soil-structure dynamic interaction research considering adjacent structures was proposed as reference for researchers.The existing matter and the prospect of future research trend in this field was also examined. 展开更多
关键词 soil-structure interaction (ssi) structure-soil-structure interaction (Sssi) dynamic cross interaction (DCI) foundation-soil-foundation interaction (FSFI) adjacent STRUCTURE
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Elastodynamic Infinite Elements with Modified Bessel Shape Functions for Dynamic Soil-Structure Interaction
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作者 Konstantin Savkov Kazakov 《Journal of Mechanics Engineering and Automation》 2011年第1期38-43,共6页
The paper is devoted to formulations of decay and mapped elastodynamic infinite elements, based on modified Bessel shape functions. These elements are appropriate for Soil-Structure Interaction (SSI) problems, solve... The paper is devoted to formulations of decay and mapped elastodynamic infinite elements, based on modified Bessel shape functions. These elements are appropriate for Soil-Structure Interaction (SSI) problems, solved in time or frequency domain and can be treated as a new form of the recently proposed Elastodynamic Infinite Elements with United Shape Functions (EIEUSF) infinite elements. The formulation of 2D Horizontal type Infinite Elements (HIE) is demonstrated here, but by similar techniques 2D Vertical (VIE) and 2D Comer (CIE) Infinite Elements can also be formulated. Using elastodynamic infinite elements is the easier and appropriate way to achieve an adequate simulation including basic aspects of Soil-Structure Interaction. Continuity along the artificial boundary (the line between finite and infinite elements) is discussed as well and the application of the proposed elastodynamic infinite elements in the Finite Element Method (FEM) is explained in brief. Finally, a numerical example shows the computational efficiency of the proposed infinite elements. 展开更多
关键词 soil-structure interaction (ssi wave propagation infinite elements finite element method (FEM) bessel functions.
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Simple Method for Dynamic Responses of Soil-Pile-Isolated Structure Interaction System 被引量:1
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作者 Yu Xu Zhuang Haiyang Liu Shuai 《Transactions of Nanjing University of Aeronautics and Astronautics》 EI CSCD 2017年第4期426-437,共12页
To investigate the effect of soil-pile-structure interaction(SPSI effect)on the dynamic response of a baseisolated structure with buried footings on a pile foundation,certain shake table tests are previously conducted... To investigate the effect of soil-pile-structure interaction(SPSI effect)on the dynamic response of a baseisolated structure with buried footings on a pile foundation,certain shake table tests are previously conducted.Based on the test results and the existing related studies,an efficient simplified model and a corresponding calculation method are verified for estimating the dynamic characteristics of a base-isolated structure with buried footings on a pile foundation with the SSI effect.In this method,the solutions by Veletsos and co-workers for a non-isolated structure with the SSI effect are verified and advanced for a base-isolated structure,and the solutions by Maravas and co-workers for a non-isolated structure on a pile foundation are introduced to consider the effect of the piles.By comparison with the shake table test,this work proves that the simplified method can efficiently estimate the dynamic responses of a base-isolated structure with buried footings on a pile foundation.Using parameter analysis,this work also shows that the dynamic characteristics of a non-isolated structure are quite similar to those of the base-isolated structure when the soil foundation is sufficiently soft,which means that the isolation layer gradually loses its isolation function as the soil foundation softens. 展开更多
关键词 soil-structure interaction(ssi) base-isolated structure seismic response shake table test simplified method
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Pushover analysis procedure for systems considering SSI effects based on capacity spectrum method
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作者 王凤霞 欧进萍 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2007年第3期269-279,共11页
This paper presents a new procedure to transform an SSI system into an equivalent SDOF system using twice equivalence. A pushover analysis procedure based on the capacity spectrum method for buildings with SSI effects... This paper presents a new procedure to transform an SSI system into an equivalent SDOF system using twice equivalence. A pushover analysis procedure based on the capacity spectrum method for buildings with SSI effects (PASSI) is then established based on the equivalent SDOF system, and the modified response spectrum and equivalent capacity spectrum are obtained. Furthermore, the approximate formulas to obtain the dynamic stiffness of foundations are suggested. Three steel buildings with different story heights (3, 9 and 20) including SSI effects are analyzed under two far-field and two near-field historical records and an artificial seismic time history using the two PASSI procedures and the nonlinear response history analysis (NLhRHA) method. The results are compared and discussed. Finally, combined with seismic design response spectrum, the nonlinear seismic response of a 9-story building with SSI effects is analyzed using the PASSI procedures, and its seismic performance is evaluated according to the Chinese 'Code for Seismic Design of Buildings. The feasibility of the proposed procedure is verified. 展开更多
关键词 pushover analysis procedure soil-structural interaction (ssi capacity spectrum method equivalent SDOF system nonlinear response history analysis
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考虑SSI三种效应的桩基础RC梁式桥抗震性能评估方法研究 被引量:5
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作者 江辉 李杰 +2 位作者 杨庆山 朱晞 刘林 《振动与冲击》 EI CSCD 北大核心 2012年第5期65-72,共8页
桩-土-桥动力相互作用是桥梁抗震研究的热点和难点问题,需合理考虑地基土柔度效应、运动学效应及阻尼效应的影响。采用基于性能点轨迹法的结构非线性静力分析方法,引入FEMA440针对土-结相互作用运动学效应、地基阻尼效应的地震动需求谱... 桩-土-桥动力相互作用是桥梁抗震研究的热点和难点问题,需合理考虑地基土柔度效应、运动学效应及阻尼效应的影响。采用基于性能点轨迹法的结构非线性静力分析方法,引入FEMA440针对土-结相互作用运动学效应、地基阻尼效应的地震动需求谱修正算法,探讨建立综合考虑桩-土相互作用三种效应的桩基础RC桥梁的抗震性能评估方法。以某高速公路RC连续梁桥为算例,分别以三种设计谱及相应的人工波为输入进行非线性静、动力方法验算对比,两个水准下的计算结果表明所建议方法在补充考虑后两种效应后,地震响应略小于以考虑第一种效应为主的动力时程法,所建议方法能有效评估桩基础桥梁在预期地震需求下的抗震性能。 展开更多
关键词 RC梁式桥 抗震性能评估 土-结相互作用 柔度效应 运动学效应 阻尼效应 非线性静力方法
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动水压力影响下考虑SSI效应的桥墩结构地震响应分析 被引量:1
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作者 卢华喜 徐路遥 郑孝辉 《华东交通大学学报》 2018年第1期9-13,共5页
基于Morison方程法,采用附加质量考虑动水压力的影响,利用ABAQUS软件计算平台建立了动水压力作用下刚性地基桥墩和考虑SSI效应的桥墩结构,对动水压力作用下考虑和不考虑SSI效应时桥墩的地震响应进行了比较,分析了考虑SSI效应的桥墩的地... 基于Morison方程法,采用附加质量考虑动水压力的影响,利用ABAQUS软件计算平台建立了动水压力作用下刚性地基桥墩和考虑SSI效应的桥墩结构,对动水压力作用下考虑和不考虑SSI效应时桥墩的地震响应进行了比较,分析了考虑SSI效应的桥墩的地震响应随水深的变化规律。结果表明:动水压力作用会增大桥墩的地震响应,其受桥墩入水深度的影响;当考虑SSI效应后,动水压力作用对桥墩自振频率折减和地震响应增大作用有所降低,但仍不能忽视动水压力作用。 展开更多
关键词 Morison方程法 ssi效应(soil-structure interaction) 自振特性 地震响应
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考虑SSI效应的核电结构水平与竖向地震响应的耦合效应研究 被引量:3
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作者 周志光 郭晶 +1 位作者 魏晓冬 张建国 《结构工程师》 北大核心 2018年第A01期82-87,共6页
本文通过振动台试验研究第三代核反应堆AP1000核安全壳模型水平与竖向地震响应的耦合效应,对该结构模型在单向和三向激励下的加速度响应进行了对比分析。分析结果表明,对于刚性地基:无隔震时,在结构频率附近,上部结构在三向地震输入下... 本文通过振动台试验研究第三代核反应堆AP1000核安全壳模型水平与竖向地震响应的耦合效应,对该结构模型在单向和三向激励下的加速度响应进行了对比分析。分析结果表明,对于刚性地基:无隔震时,在结构频率附近,上部结构在三向地震输入下的加速度响应大于单向地震输入下的加速度响应;有隔震时,上部结构在三向地震输入下的加速度响应大于单向地震输入下的加速度响应。对土性地基来说:无隔震时,在2~10Hz范围内,上部结构在单向地震输入下的加速度响应大于三向地震输入下的加速度响应;有隔震时,在隔震系统频率附近,上部结构在单向地震输入下的加速度响应大于三向地震输入下的加速度响应。 展开更多
关键词 核电站 振动台试验 耦合效应 土-结构相互作用 隔震
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Seismic Response of Adjacent Structure to Inter-Story Isolated Structure
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作者 Bingxing Ma Dewen Liu +3 位作者 Zhuoxin Yang Jiayu Zhou Yong Ding Tao Ban 《World Journal of Engineering and Technology》 2024年第1期92-102,共11页
Currently, land resources are becoming more and more constrained and structures are getting closer to each other. To investigate the seismic response of inter-story isolated structure to adjacent structure, models con... Currently, land resources are becoming more and more constrained and structures are getting closer to each other. To investigate the seismic response of inter-story isolated structure to adjacent structure, models considering no soil-structure interaction (SSI), considering soil-structure interaction (SSI), and considering structure-soil-structure interaction (SSSI) were established. Nonlinear seismic response comparative analysis was conducted by varying the spacing between adjacent structure and inter-story isolated structure, as well as the weight of adjacent structure, under different earthquake inputs, in order to obtain the structural response characteristics. The results indicate that the inter-story drift and inter-story shear of the inter-story isolated structure without considering SSI are smaller than those considering SSI and SSSI. The inter-story drift and inter-story shear of the inter-story isolated structure considering SSSI are further affected compared to that of the inter-story isolated structure considering only SSI. As the spacing between adjacent structure and inter-story isolated structure increases, the influence of adjacent structure on inter-story isolated structure decreases. The variation in the spacing between the two structures has a negligible effect on the isolation layer of the inter-story isolated structure. With the increase in the weight of adjacent structure, the influence of adjacent structure on inter-story isolated structure becomes more significant. The increasing weight of adjacent structure has an increasing effect on the Isolation layer of the inter-story isolated structure. 展开更多
关键词 soil-structure interaction (ssi) Structure-soil-structure interaction (Sssi) In-ter-Story Isolation Adjacent Structure
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考虑SSI效应的带隔板渡槽动力特性及其地震响应 被引量:2
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作者 应磊 周叮 +2 位作者 王珏 房忠洁 周文领 《振动工程学报》 EI CSCD 北大核心 2017年第6期1001-1011,共11页
研究了考虑土与结构相互作用(SSI)效应的带隔板矩形渡槽动力特性及其地震响应。利用特征函数展开法得到渡槽和槽内流体以时间为变量的耦合运动微分方程。采用复多项式分式对弹性半空间上明置条形基础的阻抗函数进行最小二乘拟合,建立与... 研究了考虑土与结构相互作用(SSI)效应的带隔板矩形渡槽动力特性及其地震响应。利用特征函数展开法得到渡槽和槽内流体以时间为变量的耦合运动微分方程。采用复多项式分式对弹性半空间上明置条形基础的阻抗函数进行最小二乘拟合,建立与频率无关的土体集总参数模型。最后使用子结构法得到土体-渡槽-流体耦合体系的运动控制方程,基于Newmark-β法求解体系的动力响应,与ADINA结果进行了对比验证。分析了土剪切波速、充液量、隔板尺寸及位置等参数对整个体系地震响应的影响,研究表明:SSI效应对槽内流体晃动特性和动力响应的影响不可忽视。 展开更多
关键词 ssi效应 流固耦合 地震响应 隔板 集总参数模型
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Research on the attribution evaluating methods of dynamic effects of various parameter uncertainties on the in-structure floor response spectra of nuclear power plant
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作者 Li Jianbo Lin Gao +1 位作者 Liu Jun Li Zhiyuan 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2017年第1期47-54,共8页
: Consideration of the dynamic effects of the site and structural parameter uncertainty is required by the standards for nuclear power plants (NPPs) in most countries. The anti-seismic standards provide two basic m... : Consideration of the dynamic effects of the site and structural parameter uncertainty is required by the standards for nuclear power plants (NPPs) in most countries. The anti-seismic standards provide two basic methods to analyze parameter uncertainty. Directly manually dealing with the calculated floor response spectra (FRS) values of deterministic approaches is the first method. The second method is to perform probability statistical analysis of the FRS results on the basis of the Monte Carlo method. The two methods can only reflect the overall effects of the uncertain parameters, and the results cannot be screened for a certain parameter's influence and contribution. In this study, based on the dynamic analyses of the floor response spectra of NPPs, a comprehensive index of the assessed impact for various uncertain parameters is presented and recommended, including the correlation coefficient, the regression slope coefficient and Tornado swing. To compensate for the lack of guidance in the NPP seismic standards, the proposed method can effectively be used to evaluate the contributions of various parameters from the aspects &sensitivity, acuity and statistical swing correlations. Finally, examples are provided to verify the set of indicators from systematic and intuitive perspectives, such as the uncertainty of the impact of the structure parameters and the contribution to the FRS of NPPs. The index is sensitive to different types of parameters, which provides a new technique for evaluating the anti-seismic parameters required for NPPs. 展开更多
关键词 uncertain parameter floor response spectra (FRS) soil-structure interaction (ssi seismic analysis andstructural design nuclear power plant (NPP)
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多振型效应对铁路高柔桥墩弹塑性地震响应的影响 被引量:5
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作者 李宇 朱晞 杨庆山 《铁道学报》 EI CAS CSCD 北大核心 2011年第11期99-105,共7页
对FEMA356和ATC-40中考虑多自度效应的非线性静力分析法进行改进。并在FEMA440考虑土-结构相互作用能力谱法基础上,以我国西南某铁路特大桥桥墩为研究对象,选取与我国《铁路工程抗震规范》Ⅱ类场地相符合的80条强震记录,利用FEMA440性... 对FEMA356和ATC-40中考虑多自度效应的非线性静力分析法进行改进。并在FEMA440考虑土-结构相互作用能力谱法基础上,以我国西南某铁路特大桥桥墩为研究对象,选取与我国《铁路工程抗震规范》Ⅱ类场地相符合的80条强震记录,利用FEMA440性能点轨迹法求解高柔桥墩结构延性及性能点;并与80条强震记录非线性时程分析计算结果平均值进行比较。验证本文改进的非线性静力分析法反映高柔桥墩多自度效应的合理性,及考虑土-结构相互作用能力谱法在铁路桥梁工程中应用的可行性。 展开更多
关键词 高柔桥墩 抗震性能评估 土-结构相互作用 多振型效应 能力谱法 FEMA440
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土-结构相互作用对滚珠隔震支座隔震效果的影响 被引量:1
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作者 章蓉 隋杰英 孙晓东 《青岛理工大学学报》 CAS 2013年第6期7-10,共4页
以ANSYS软件为上部空间结构计算平台,建立包含土、隔震层、基础、空间结构在内的整体三维模型,并通过与框架结构和框架隔震结构的水平地震效应做对比,分析了土-结构相互作用对滚珠隔震支座隔震效果的影响.结果表明:在水平地震作用下土-... 以ANSYS软件为上部空间结构计算平台,建立包含土、隔震层、基础、空间结构在内的整体三维模型,并通过与框架结构和框架隔震结构的水平地震效应做对比,分析了土-结构相互作用对滚珠隔震支座隔震效果的影响.结果表明:在水平地震作用下土-结构相互作用在一定程度上减弱了滚珠隔震支座的隔震效果,因此在隔震结构设计中考虑土-结构相互作用的影响是十分必要的. 展开更多
关键词 滚珠隔震支座 土-结构相互作用 水平地震效应 隔震效果
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振动台试验用层状剪切型土箱的研制及测试 被引量:3
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作者 吴应雄 郑泽炜 +1 位作者 窦慧 陈伟恩 《南昌大学学报(工科版)》 CAS 2021年第1期11-16,72,共7页
考虑到土箱边界效应对土-结构振动台试验的影响,设计并研制了一种由15层钢框架叠合而成的层状剪切型土箱,通过在层层框架间设置嵌有滚珠的牛眼轴承,使框架可沿平面外任意方向转动。采用ABAQUS数值模拟和振动台试验相结合的方法,对土箱... 考虑到土箱边界效应对土-结构振动台试验的影响,设计并研制了一种由15层钢框架叠合而成的层状剪切型土箱,通过在层层框架间设置嵌有滚珠的牛眼轴承,使框架可沿平面外任意方向转动。采用ABAQUS数值模拟和振动台试验相结合的方法,对土箱的动力特性进行分析。结果表明土箱自振频率和阻尼比与模型土的自振频率和阻尼比相差较大,土箱不会对模型土的自振特性产生不利影响;土体内同一深度处各测点的加速度时程和傅里叶谱吻合度较高,各测点的边界效应指数较低。土箱能够较好地实现土体边界条件以及剪切变形的模拟,用于考虑SSI效应的振动台试验可行。 展开更多
关键词 ssi效应 边界效应 层状剪切型土箱 振动台试验 ABAQUS
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考虑土-结相互作用的黏滞阻尼器减震结构振动台试验研究 被引量:5
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作者 赵学斐 王曙光 +2 位作者 王海 杜东升 刘伟庆 《振动与冲击》 EI CSCD 北大核心 2017年第13期146-154,共9页
通过对黏滞阻尼器消能减震钢框架结构模型在刚性地基和群桩地基条件下进行对比振动台试验,研究土-结动力相互作用(SSI)对阻尼器减震效果的影响。根据量纲分析法确定了试验模型与原型的相似关系。采用粉质黏土作为试验用土,采用叠层剪切... 通过对黏滞阻尼器消能减震钢框架结构模型在刚性地基和群桩地基条件下进行对比振动台试验,研究土-结动力相互作用(SSI)对阻尼器减震效果的影响。根据量纲分析法确定了试验模型与原型的相似关系。采用粉质黏土作为试验用土,采用叠层剪切型土箱以减轻边界的影响。上部结构为5层钢框架,消能元件为黏滞阻尼器。通过振动台试验获取了不同地震输入下减震结构及非减震结构在不同基础条件下的动力特性、楼层加速度及位移的地震反应数据。对于桩基础模型,测量了桩身应变及桩土接触面的压力值。试验结果表明:对于非减震结构,SSI效应使结构体系的阻尼比有较大的提高,而对于减震结构,SSI效应对结构体系的阻尼比影响则不大;SSI效应对结构楼层加速度反应具有显著的影响,其对上部结构地震反应的主要影响体现为减震效应,且随着地震输入量级的增大,减震效应愈大,群桩基础上阻尼器的减震效率与刚性地基相比具有较大程度的下降;对于桩基础结构,阻尼器在降低上部结构反应的同时,减小了桩基础的地震反应,上部结构和基础两个方面的安全性都得到了提高。 展开更多
关键词 黏滞阻尼器 土-结构相互作用 振动台试验 动力特性 地震反应
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考虑土-结构作用的层间隔震结构三维地震响应 被引量:3
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作者 周旺旺 刘德稳 +3 位作者 赵洁 刘阳 武倩倩 李天明 《科学技术与工程》 北大核心 2022年第6期2394-2400,共7页
实际地震具有多维性,只考虑水平向往往不够真实全面,且在考虑土-结构相互作用(soil-structure interaction,SSI)中更为复杂,缺少相关的研究分析。建立层间隔震结构模型,利用点弹簧模拟土体参数实现SSI效应,进行三维地震动下动力弹塑性... 实际地震具有多维性,只考虑水平向往往不够真实全面,且在考虑土-结构相互作用(soil-structure interaction,SSI)中更为复杂,缺少相关的研究分析。建立层间隔震结构模型,利用点弹簧模拟土体参数实现SSI效应,进行三维地震动下动力弹塑性分析。研究三维地震激励下,考虑SSI前后的层间隔震结构的地震响应,通过改变土体性质,探讨了考虑SSI对结构的影响规律。针对三维地震动,设置了三维隔震支座,并与传统水平隔震支座结构进行了地震响应分析对比。结果表明:三维地震下,考虑SSI层间隔震结构地震响应增大,周期有所延长,层间位移角增大,结构损伤加重;采用三维隔震支座后,考虑SSI层间隔震结构的层间位移角和基底剪力均明显减小,结构的损伤程度减轻,三维隔震支座减震性能更优。 展开更多
关键词 层间隔震 土-结构相互作用(soil-structure interaction ssi) 三维地震动 动力弹塑性 三维隔震支座 地震响应
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Shaking Table Model Test of Isolated Structure on Soft Site and Analysis on Its Isolation Efficiency 被引量:3
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作者 Yu Xu Zhuang Haiyang Zhu Chao 《Transactions of Nanjing University of Aeronautics and Astronautics》 EI CSCD 2017年第2期169-176,共8页
Adopting a soft site model built on soft interlayer soil foundation,a shaking table test for soft interlayer soil-isolated structure interaction is conducted to investigate the seismic response of isolated structure o... Adopting a soft site model built on soft interlayer soil foundation,a shaking table test for soft interlayer soil-isolated structure interaction is conducted to investigate the seismic response of isolated structure on soft site,and analyze its isolation effect.Test results show that the test can reflect the earthquake response characteristics of isolated structure on soft site.It is on soft site that the dynamic characteristics of isolated structure,acceleration magnification factor(AMF)of isolated structure and isolation efficiency of the isolation layer differ from those on rigid foundation with an soil-structure interaction(SSI)effect,represented by the reduction in fundamental vibration frequency of isolated structure and the increase of damping ratio with changes of the SSI effect.SSI can either increase or decrease AMF of isolated structure on soft site,depending on the characteristics of earthquake motion input.Furthermore,the isolation efficiency of isolation layer on soft site is decreased with the SSI effect,which is related to the peak ground acceleration(PGA)and the characteristics of earthquake motion input. 展开更多
关键词 isolated structure shaking table model test soil-structure interaction(ssi) seismic response isolation efficiency
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