复合隔震结构高宽比限值研究     

杨树标  马裕超  原朵仙 《世界地震工程》2010,26(4)

复合隔震结构是将夹层橡胶支座与摩擦滑移支座并联组合在一起作为隔震层的基础隔震结构。文中对复合隔震结构的高宽比限值进行了研究,推导出了简化的计算公式。同时分析了摩擦系数、摩擦滑移支座承载系数、地震动强度、地震波特性等因素对结构高宽比限值的影响及其规律,得出了一些有益的结论,为复合隔震结构的设计提供了一些参考。  相似文献   

结构特征及场地类别对复合隔震结构地震反应的影响     

杨树标  裴俊杰  贾剑辉 《世界地震工程》2012,28(2):131-135

对并联复合隔震结构的地震反应性能进行了分析。通过有限元软件模拟并联复合隔震结构试验确定了软件分析所需的一些参数,利用这些参数建立了并联复合隔震结构工程模型,并对其进行了时程分析。结果表明,复合隔震结构的基底剪力和位移在不同结构特征、不同场地类别和不同地震烈度下反应不敏感,说明其在设计与应用时非常有利。  相似文献   

多维地震激励下某建筑结构隔震控制参数分析     

张璨 《世界地震工程》2014,(2)

研究了多维地震激励下具有不同隔震控制参数的结构的响应。运用SAP2000有限元软件,根据某个实际工程建立了有限元模型,并对结构进行了动力特性的分析。选取Ⅱ类场地上3条多维地震动,给出了隔震支座的有限元模拟过程。介绍了隔震支座基本参数的选取方法,根据选取的隔震支座,比较了结构有、无隔震支座时的周期。分别研究了多维地震动激励下结构有、无隔震支座的反应。研究结果表明:单维和多维地震激励下,结构的隔震响应不同,应该按照多维地震情况考虑;多维地震动的入射角对结构隔震响应的影响显著,不容忽视;多维地震动强度峰值比对结构隔震响应的影响很小,可以忽略不计。  相似文献   

复合隔震结构模型振动台试验研究   总被引：2，自引：0，他引：2  

杨树标  马裕超  李旭光  孙丰光 《地震工程与工程振动》2010,30(1)

作者对一个二层复合隔震结构钢框架模型进行了振动台试验,该模型采用夹层橡胶支座与摩擦滑移支座并联组合作为隔震层,既能提供足够的弹性恢复力,又具有良好的结构耗能能力。试验测得结构各项动力响应,并将软件计算数据与试验数据进行了比较,结果表明复合隔震结构的加速度反应小,楼层层间位移也较小,上部结构基本为平动,结构耗能能力显著,而且软件可以很好地模拟结构的地震反应规律。  相似文献   

复合隔震摩擦承压比的振动台试验研究     

杨树标  李旭光  马裕超  孙丰光 《世界地震工程》2010,26(2)

对复合隔震结构的重要参数之一摩擦承压比进行了振动台试验研究,分析试验结果表明摩擦承压比对复合隔震结构的减震效果影响很大,并且存在合理取值范围.合理的摩擦承压比取值可以使复合隔震结构的地震反应比橡胶支座隔震结构小.因此复合隔震结构具有显著的优越性.  相似文献   

新型组合隔震支座设计与性能研究          下载免费PDF全文

韩汶利  高向宇  吴凡  田杰  王作杰 《地震工程学报》2024,(1):146-155

在已有研究基础上,为提高摩擦型组合隔震支座变形能力、改进各摩擦组件位移协调性,建立实体化和参数化计算模型,对新型三段两级摩擦组合隔震支座进行构造及内力分析研究,使用ABAQUS软件对摩擦阻尼器和组合隔震支座进行实体有限元模拟。针对设置常规隔震支座和新型组合隔震支座的某隔震结构案例进行建模及非线性时程地震响应分析,推导组合隔震支座出力和构造参数的关系。研究结果表明,文章所采用的摩擦阻尼器参数化建模方法是准确的,新型组合支座可明显降低支座拉应力,减小隔震层位移,提高结构抗倾覆能力。文章提出的针对摩擦阻尼器的简化单元可大幅提高有限元模型的计算效率。  相似文献   

基于柱顶隔震的3层3跨地铁地下车站结构抗震性能研究     

陈文斌  庄海洋  李晟  陈苏 《震灾防御技术》2021,16(1):146-156

针对3层3跨框架式地铁地下车站结构抗震薄弱构件,采用在柱顶不同位置设置铅芯橡胶隔震支座的方法,建立土-地下连续墙-主体结构非线性静动力耦合相互作用的二维整体时域有限元分析模型,分析柱顶隔震支座对车站主体结构的侧向变形、地震损伤和动应力反应等结构地震反应特性的影响。结果表明,仅在抗震薄弱的顶层和底层中柱柱顶设置2层隔震支座与各层中柱柱顶设置3层隔震支座均可有效减轻中柱地震损伤程度,提高车站结构整体抗震性能。然而,仅在顶、底层中柱柱顶设置2层隔震支座时,会明显加重未设置隔震支座的中间层中柱地震损伤程度。此外,柱顶隔震支座的设置会削弱隔震体系的整体抗侧移能力,从而增大地铁地下车站结构地震侧移。总体上,建议采用各层中柱柱顶均设置隔震支座的措施提升地铁地下车站结构的整体抗震性能。  相似文献   

竖向地震动对滑动摩擦隔震桥梁结构地震反应的影响     

王常峰  陈兴冲  夏修身 《世界地震工程》2008,24(4)

利用接触摩擦单元建立了滑动摩擦隔震桥梁支座在竖向地震动作用下的有限元模型,通过算例讨论了竖向地震动对不同支座摩擦系数和不同刚度(墩径)滑动摩擦隔震桥梁地震反应的影响,初步探讨了竖向地震动的激励方向对分析结果的影响,分析结果表明,竖向地震动对滑动摩擦隔震桥梁结构的地震反应有较大的影响,在竖向地震动较为明显地区的滑动摩擦隔震桥梁结构设计时,应予以考虑。  相似文献   

某框架结构基础隔震地震反应对比分析          下载免费PDF全文

易鸣  姚运生  王秋良  魏勇  雷霆 《地震工程学报》2019,41(2):340-346

基于结构动力学原理和有限元基本理论,利用SAP2000有限元分析软件,以某框架结构基础隔震楼和与其相近的非隔震楼为研究对象分别建立分析模型,运用动力时程分析法对两种模型进行水平地震反应分析。结果表明:基础隔震楼的水平向地震反应远小于非隔震楼,其上部结构的自振周期明显大于非隔震楼,其层间剪力和基底剪力、楼层相对位移和加速度低于非隔震楼。总体来说,隔震支座可以显著降低水平向地震对于结构的不良反应,值得推广应用。  相似文献   

摩擦-钢管混凝土短柱复合隔震支座性能试验与隔震分析   总被引：3，自引：0，他引：3  

王伟  张永山  王焕定 《地震工程与工程振动》2000,20(2):134-138

作者在钢管混凝土柱支座隔震房屋实验研究中发现,隔震支座中上盖与底座的接触无论如何处理,摩擦力总是存在的．因此,隔震支座实际上是摩擦耗能与钢管混凝土耗能复合减震系统。本文通过对单个和一组隔震支座的实验研究,确定了短柱支座的恢复力模型,采用了高阶单步算法分析了装有此类支座隔震结构的地震反应,验证了复合隔震支座良好的隔震性能及隔震效果。  相似文献   

Pushover analysis of base-isolated steel–concrete composite structures under near-fault excitations     

C.P. Providakis   《Soil Dynamics and Earthquake Engineering》2008,28(4):293-304

In the present study, the seismic behavior of steel–concrete composite structures isolated by base-isolation devices under near-fault earthquake excitations is numerically investigated. The seismic analysis is performed by means of the static non-linear (pushover) analysis procedure conducted on two five-storey three-dimensional (3-D) buildings with steel columns and steel–concrete composite slabs and beams. The present 3-D building examples are assumed to be located at a near-fault area in order to take into account the effect of strong ground motion on the isolation devices. The results of this study allowed the verification of the adequacy of the attachment isolation system as well as the comparison of the behavior of the seismic-protected building with or without bracings to the unprotected buildings with or without bracings, showing the benefits of the application of the isolation devices, the limitations and the characteristics of their performance.  相似文献   

复合隔震支座在网格屋盖结构中的应用研究     

唐柏鉴  张建 《地震工程与工程振动》2010,30(1)

将铅芯橡胶隔震垫与碟簧组合形成复合隔震垫,并应用于网格屋盖结构,利用串联弹簧模型预估铅芯橡胶隔震垫参数,利用单质点弹簧模型预估碟簧参数,结合实际工程,进行了模态分析、水平地震动时程分析及竖向地震动时程分析,表明复合隔震技术降低屋盖、下部结构加速度反应60%左右,降低由于地震引起的基顶反力约30%,但水平地震下隔震屋盖的侧移增大显著,应引起注意;文中提出的隔震垫参数预估模型得到了地震动时程分析的验证,可为工程参考。  相似文献   

基于状态空间法的SMA-复合支座隔震结构分析     

刘海卿  陈小波  王学庆 《地震工程与工程振动》2007,27(5):173-176

研究了SMA(shape memory alloy)绞线-叠层橡胶复合支座的工作原理,将结构控制理论中的结构状态空间法应用到该复合支座隔震结构的数值模拟分析中。建立了普通框架、安装叠层橡胶支座和安装SMA复合支座框架的结构状态方程,应用SIMULINK工具箱建立结构仿真模型,得出不同条件下框架结构的时程反应曲线。通过对比分析可以看出SMA-复合支座能很好地改变结构的隔震效果,应用状态空间法进行SMA-复合支座隔震结构的数值模拟分析简单准确。  相似文献   

单层工业厂房-TMD减震控制系统研究     

田洁  姚谦峰  王克成 《地震工程与工程振动》2005,25(1):138-144

提出了采用质量调谐减震控制技术对厂房结构进行减震控制的方法。利用屋盖系统作为附加质量,屋盖支座采用夹层橡胶隔震垫,建立了厂房-TMD系统模型,并用非线性时程分析法对其进行了多种地震动激励下的计算分析,探讨了厂房-TMD减震体系减震效果的参数影响及减震机理。结果表明,采用质量调谐减震技术对单层工业厂房进行减震是一种有效的方法。  相似文献   

Seismic response of light internal equipment in base-isolated structures     

James M. Kelly  Hsiang-Chuan Tsai 《地震工程与结构动力学》1985,13(6):711-732

The seismic response of light secondary systems in a building is dependent on the response of the primary structural system to the seismic ground motion with the result that very high accelerations can be induced in such secondary systems. This response can be reduced through the use of aseismic base isolation which is a design strategy whereby the entire building can be decoupled from the damaging horizontal components of seismic ground motion by the use of some form of isolation system. The paper presents a theoretical analysis of the response of light equipment in isolated structures and a parallel experimental programme both of which show that the use of base isolation can not only attenuate the response of the primary structural system but also reduce the response of secondary systems. Thus, the design of equipment and piping in a base-isolated building is very much simpler than that for a conventionally founded structure: inelastic response and equipment-structure interaction need not be considered and multiple support response analysis is rendered unnecessary. Although an isolation system with linear elastic bearings can reduce the acceleration of the structure, it may be accompanied by large relative displacements between the structure and the ground. A system using lead-rubber hysteretic bearings, having a force-displacement relation which is approximately a bilinear loop, can reduce these displacements. A parallel experimental programme was carried out to investigate the response of light equipment in structures isolated using lead-rubber bearings. The experimental results show that these bearings can dissipate energy and limit the displacement and acceleration of the structure but are less effective in reducing the accelerations in the internal equipment. The results of both the analysis and the tests show that base isolation is a very effective method for the seismic protection of light equipment items in buildings.  相似文献   

Approximating peak responses in seismically isolated buildings using generalized modal analysis     

Tracy C. Becker  Stephen A. Mahin 《地震工程与结构动力学》2013,42(12):1807-1825

Although the ability to simulate accurately the detailed behavior of nonlinear isolation bearings and the effects of this nonlinearity on dynamic response of the isolated building is desirable, such detailed analyses are not feasible during initial design stages when bearing properties are being selected. However, it would be very beneficial to be able to estimate accurately key engineering demand parameters at the early stages of design to understand the dynamic response characteristics of the isolated structure and to balance and optimize the bearing and structural characteristics to achieve the performance goals set for the building. Unfortunately, classical modal response spectrum analysis methods do not provide accurate results for problems with large, nonclassical damping, as is characteristic of isolated buildings. To find a method capable of predicting peak building responses even with large nonclassical damping, generalized modal response spectrum analysis is implemented. The responses of several buildings having different heights and isolated by linear viscous as well as triple friction pendulum and single friction pendulum isolation systems are investigated. Generalized modal response spectrum analysis methods were found to give significantly better predictions for all systems compared with classical methods. The behavior of buildings isolated with single friction pendulum systems exhibiting sudden changes in stiffness could not be well predicted by either general or classical modal response spectrum analysis when effective damping was increased. Copyright © 2013 John Wiley & Sons, Ltd.  相似文献   

应用基础隔震技术的建筑工程造价分析     

郭起剑  姜莹  战松梅 《世界地震工程》2006,22(4):116-120

应用叠层橡胶支座进行基础隔震是目前国内外大力推广的一门建筑抗震新技术。但由于对采用隔震技术后建筑物的工程造价是否会增加缺乏具体的经济技术指标,使得建筑开发商对其推广应用一直持保守态度。选择了位于VIII度区的两个典型工程实例(一例为乙类建筑,另一例为丙类建筑),简要分析了同一建筑物采取不同设计方案(不隔震但抗震设防、隔震使实际设防水平提高、隔震后与未隔震建筑保持相同设防水平等三种不同设计方案)对工程造价的影响及差异。分析数据表明,在同等设防烈度下,基础隔震技术的合理应用可以使被隔震建筑的工程造价与同条件只采用抗震设防的建筑工程造价适当降低。  相似文献