夹层橡胶隔震支座全刚性性能、回转刚性及高压缩应力性能试验研究

本文详细地研究了夹层橡胶隔震支座的全刚性性能,同时还研究了夹层 橡胶隔震支座的回刚性,并给出了竖向压力及剪切变形对隔震支座回转刚性的影响结果,文末给出了隔震支座在高压缩应力作用下的基本力学性能,研究结果显示在竖向压缩压力达到30MPa时,隔震支座仍可具有良好的力学性能。     

橡胶砂芯组合砌块垫层隔震性能试验研究

构造简单、成本低廉的简易隔震方法是提高经济欠发达农村地区的低矮房屋抗震性能的有效措施.文中提出一种新的简易隔震方法:橡胶砂芯组合砌块隔震垫层(RSMCBL).其主要原理为:上部结构通过离散的刚性盖板支承在一系列离散的由废旧轮胎颗粒-砂混合物构成的土柱上,橡胶砂柱被刚性砌块所侧向约束,以保证隔震层的强度和稳定性.针对此种...     

铅芯橡胶支座隔震钢框架结构体系振动台模型试验研究

设计并完成了铅芯橡胶支座隔震钢框架结构体系的振动台模型试验,研究刚性地基上隔震结构体系的动力特性和隔震效果,为进一步开展考虑土-结构相互作用的隔震结构体系振动台模型试验提供数据对比。试验结果表明:刚性地基上隔震结构体系具有良好的隔震性能,隔震效果显著,输入地震动的频谱特性和加速度峰值对隔震结构的隔震效率影响较大。     

基底滑移隔震刚性结构的随机滑移反应和可靠性分析

本文使用Fokker-Planck方程,给出了基底可滑移刚体在高斯白噪声扰动作用下的滑动速度概率密度函数。利用等效线性化方法,求得了基底可滑移刚体在有限带宽白噪声扰动作用下的均方滑动位移反应和均方滑动速度反应。进而给出了基底滑移隔震刚性房屋滑离基础的滑离概率,并导出了基础附加宽度的计算公式。     

摩擦基底隔震刚性结构滑移反应谱的确定

将地震地面运动模拟成均值为零的两次过滤Ｇａｕｓｓ白噪声过程,使用等效线性化方法获得了摩擦基底隔震刚性结构在地震作用下的均方滑动位移和速度反应。然后,给出了这种结构的最大滑移反应的均值和标准差,并给出了这种结构的滑移反应谱。     

刚性结构基础隔震随机地震响应及优化分析

运用随机振动的时域复模态分析方法，对刚性结构房屋基础隔震体系在平稳随机地震激励下的响应进行了分析，得出隔震结构体系的地震反应统计特征。在此基础上，结合基础隔震结构均方响应和地震激励均方值之比与频率比、阻尼比的关系曲线以及基于失效概率下位移限值与频率比、阻尼比的关系曲线，提出采用图解法确定隔震装置合理优化的参数取值。     

土-结构动力相互作用对基础隔震的影响

本文研究土-结构动力相互作用对基础隔震的影响。文中根据间接边界元方法，推导了空间域中的格林函数公式，并建立了地基土的动力刚度矩阵；进而在频域内采用子结构法，建立了考虑土-结构动力相互作用的隔震结构的运动方程；通过数值仿真某具有埋置刚性基础的剪切型基础隔震结构的地震反应，分析了地基土的刚度对隔震效果以及结构地震反应的影响，得到了一些有意义的结论。     

橡胶座非线性弹性回转剪切特性的理论和试验研究

本文系统地研究分析了橡胶隔震支座(以下简称为橡胶座)回转、剪切相关的基础理论,提出了能够反映剪切应变特性的非线性回转刚度等概念。基于非线性回转刚度与Haringx弹性体计算模型,给出了计算橡胶座回转、压缩、剪切特性的计算理论。针对回转剪切计算理论采用天然橡胶和铅芯橡胶座原型试件进行了回转刚度试验,以及变动回转、变动压力等状态的剪切试验,结果表明建立的计算理论能够较理想地分析橡胶座回转剪切相关的力和弯矩等力学特性。     

砌体结构工程抗震软件的结构隔震功能及算例分析

在砌体结构抗震软件开发过程中，为完善软件功能，添加了结构减震设计验算程序。作为首次应用性软件开发，暂只包含橡胶热隔震的设计与验算功能。本文主要介绍了软件应用时，橡胶垫隔震支座的设计过程，并通过对一个模拟的8层砌体建筑进行隔震设计与对比分析，给出了隔震设计后隔震效果的有关结论。     

隔震立式储罐地震反应谱分析

基于反应谱理论,研究了的基底隔震储罐的地震响应问题.将储罐简化为三质点体系力学模型,罐内连续液体质量等效为对流质量、脉冲质量和刚性质量,并引入隔震刚度.与时程分析对比,验证反应谱法的适用性,分析隔震立式储罐的地震响应并研究主要参数对隔震储液罐地震响应的影响,主要考虑的参数有:(1)场地类别;(2)隔震周期;(3)高径比.结果表明:反应谱法计算隔震立式储罐地震响应是偏于安全的;随着场地类别和隔震周期的增大,基底剪力减震率逐渐降低,晃动波高变化不明显,隔震后,液动压力呈线性变化,液动压力随着场地类别和高径比的增大而增大,随着隔震周期的增大而减小;高径比存在一定的优化段,在优化段内,基底剪力减震率较大,隔震效果较好.     

建筑用低硬度橡胶隔震支座界限性能和屈曲性能研究

本研究系统地对低硬度橡胶隔震支座的材料及力学性能进行了试验研究。研究用低硬度橡胶天然及铅芯橡胶隔震支座18种规格总计近30个大直径隔震支座。研究内容涉及低硬度橡胶隔震支座的基本力学性能，温度、压力、剪切变形、老化及徐变等相关性能，压缩界限、拉伸界限、极限剪切变形等界限性能和屈曲特性，以及橡胶材料性能和隔震工程应用等方面。本文主要介绍低硬度橡胶天然及铅芯隔震支座的压缩、拉伸、剪切等界限性能和屈曲应力与剪切应变的相关特性，文中提出了基于刚度因子建立的橡胶支座的界限压缩和界限拉伸应力评价方程，同时还给出了剪切变形状态下的屈曲应力评价方法。     

橡胶座非线性弹性界限特性和屈曲特性理论和试验研究

本文系统地研究分析了橡胶隔震支座(以下简称为橡胶座)的界限特性和屈曲特性,界限特性的研究包括橡胶座的界限压缩、界限拉伸、界限剪切等特性,屈曲特性研究包括橡胶座的屈曲应力与界限剪切应变的相关特性。基于橡胶座的压缩刚度因子和拉伸刚度因子,给出了计算橡胶座界限压缩和界限拉伸应力的实用计算理论,同时提出了屈曲应力和界限剪切应变的评价方法。针对橡胶座的界限特性和屈曲特性理论,采用天然橡胶和铅芯橡胶座原型试件进行了试验研究,结果表明本文提出的界限压缩、界限拉伸、屈曲应力等计算理论和评价方法是偏于安全的。文末汇总了本研究涵盖的橡胶座压缩、拉伸、回转、剪切和界限等相关特性的研究成果,初步形成了建筑用橡胶座的基础理论体系。     

铅芯夹层橡胶隔震垫基本力学性能研究

本文详细地研究了中国铅芯夹层橡胶隔震垫的基本力学性能,主要包括隔震垫的竖向,水平特性及极限承载能力,在竖向性能方面研究了隔震垫的竖向刚度及变形特性;水平性能的研究包括水平有效刚度和阻尼特性;极限承载能力的研究包括隔震垫的压缩破坏。     

Study on effects of damping in laminated rubber bearings on seismic responses for a ⅛ scale isolated test structure

The effects of damping in various laminated rubber bearings (LRB) on the seismic response of a ?‐scale isolated test structure are investigated by shaking table tests and seismic response analyses. A series of shaking table tests of the structure were performed for a fixed base design and for a base isolation design. Two different types of LRB were used: natural rubber bearings (NRB) and lead rubber bearings (LLRB). Three different designs for the LLRB were tested; each design had a different diameter of lead plug, and thus, different damping values. Artificial time histories of peak ground acceleration 0.4g were used in both the tests and the analyses. In both shaking table tests and analyses, as expected, the acceleration responses of the seismically isolated test structure were considerably reduced. However, the shear displacement at the isolators was increased. To reduce the shear displacement in the isolators, the diameter of the lead plug in the LLRB had to be enlarged to increase isolator damping by more than 24%. This caused the isolator stiffness to increase, and resulted in amplifying the floor acceleration response spectra of the isolated test structure in the higher frequency ranges with a monotonic reduction of isolator shear displacement. Copyright © 2002 John Wiley & Sons, Ltd.     

基于汶川地震的LRB与RB隔震连续梁桥地震响应对比研究

为了研究铅芯橡胶支座(LRB)和板式橡胶支座(RB)对连续梁桥地震响应及隔震效果的影响,分别采用Bouc - Wen滞回恢复力模型模拟LRB的力-位移非线性特性,采用直线型恢复力模型模拟RB的本构关系,通过结构离散建立了非隔震、LRB隔震和RB隔震3种连续梁桥的有限元计算模型,运用四阶显式Runge - Kutta迭代法和Newmark时间积分法联合求解增量形式的全桥动力微分方程,并结合算例对3种连续梁桥有限元计算模型分别输入汶川地震波进行非线性时程对比分析.结果表明:LRB在控制梁体与支座位移,降低结构加速度和墩、台底内力响应方面均比RB的效果要显著;采用RB隔震后,梁体与支座的位移响应均较大,在桥梁隔震设计时要予以充分重视.     

Effect of lead core heating on the seismic performance of bridges isolated with LRB in near‐fault zones

In this paper, the effect of lead core heating and associated strength deterioration on the seismic response of bridges isolated with lead rubber bearings (LRB) is investigated as a function of the characteristics of the isolator and near fault ground motions with forward rupture directivity effect. Furthermore, the ability of bounding analyses to provide a design envelope for maximum isolator force and maximum isolator displacement is verified. For this purpose, a series of nonlinear dynamic analyses are conducted for LRB isolated bridges where both deteriorating and non‐deteriorating force‐deformation relationship of LRB were employed. The analyses are performed for both simulated and recorded ground motions. It is found that while the temperature rise in the lead core generally increases with increasing magnitude and number of near fault ground motion velocity pulses, it decreases with larger distances from the fault. It is also found that bounding analysis method provides conservative (envelope) estimates of maximum isolator displacement and maximum isolator force for design purposes that fulfill its intended purpose. Copyright © 2012 John Wiley & Sons, Ltd.     

温度对铅芯橡胶支座隔震桥梁抗震性能的影响分析

为了研究温度对铅芯橡胶支座（LRB）隔震桥梁抗震性能的影响,以一座七跨连续梁桥为对象,考虑LRB在夏季和冬季不同温度下的力学特性,利用OpenSees对桥梁抗震性能进行研究。通过对不同温度下墩柱、支座及桥梁系统的地震易损性分析,获得了温度对铅芯橡胶支座隔震桥梁抗震性能的影响。结果表明:（1）与夏季相比,冬季低温降低了桥墩的延性及LRB的剪切变形和耗能能力,使地震作用时墩顶位移和支座变形均小于夏季,降低了LRB的减震效果;（2）冬季低温增大了地震作用时桥墩、LRB及桥梁系统在各个破坏状态的损伤概率,在中等及严重破坏状态时损伤概率相比夏季分别增加了8%和15%。在寒冷地区进行LRB隔震桥梁设计时,应考虑低温导致的LRB隔震效果降低对桥梁抗震性能的影响。     

Shake table tests on a mass eccentric model with base isolation

A mass eccentric structure is usually more seismically vulnerable than its concentric counterpart because of the coupled torsional–translational response of such structures. In this work, dynamic characteristics and response of a five‐storey benchmark model with moderate mass eccentricity were investigated using a shake table, simulating four different ground motions. The effectiveness of laminated rubber bearings (LRB) and lead‐core rubber bearings (LCRB) in protecting eccentric structures was examined and evaluated in relation to translational and torsional responses of the benchmark model. It was observed that both translational and torsional responses were significantly reduced with the addition of either a LRB or LCRB isolated system regardless of the nature of ground motion input. The LRB were identified to be more effective than LCRB in reducing model relative displacements, the relative torsional angle as well as accelerations, and therefore provided a better protection of the superstructure and its contents. On the other hand, LCRB rendered a smaller torsional angle and absolute displacement of the base isolation system, hence a more stable structural system. Copyright © 2003 John Wiley & Sons, Ltd.     

Investigation of the seismic response of high‐rise buildings supported on tension‐resistant elastomeric isolation bearings

In many applications of seismic isolation, such as in high‐rise construction, lightweight construction, and structures with large height‐to‐width aspect ratios, significant tension forces can develop in bearings, raising concerns about the possible rupture of elastomeric bearings and the uplift of sliding bearings. In this paper, a novel tension‐resistant lead plug rubber bearing (TLRB) with improved tension‐resisting capabilities is developed and experimentally and numerically assessed. This TLRB consists of a common lead plug rubber bearing (LRB) and several helical springs. After describing the theory underlying the behavior of the TLRB, the mechanical properties of reduced‐scale prototype bearings are investigated through extensive horizontal and vertical loading tests. The test results indicate that TLRBs can improve the shear stiffness and tension resistance capacity even under significant tensile loads. A series of shaking table tests on scaled models of high‐rise buildings with different aspect ratios were conducted to investigate the dynamic performance of the TLRB and the seismic responses of base‐isolated high‐rise buildings. Three different cases were considered in the shaking table tests: a fixed base condition and the use of TLRB and LRB isolation systems. The results of the shaking table test show that (a) base‐isolated systems are effective in reducing the structural responses of high‐rise buildings; (b) an isolated structure's aspect ratio is an important factor influencing its dynamic response; (c) TLRBs can endure large tensile stresses and avoid rupture on rubber bearings under strong earthquakes; and (d) the experimental and numerical results of the responses of the models show good agreement. Copyright © 2016 John Wiley & Sons, Ltd.