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1.
组合钢板耗能器—一种新型耗能减震装置 总被引:7,自引:0,他引:7
本文在吸收普通钢板耗能器和Pall摩擦耗能器优点的基础上提出了组合钢板耗能器,建立了相应的力学分析和计算模型;通过地震反应分析检验了其减振效果,并与普通钢板耗能器进行了对比。研究结果表明,组合钢板耗能器是一种构造简单,耐久性好,减效果和经济效果俱佳的抗震效果,具有广阔手应用前景。 相似文献
2.
被动及半主动摩擦阻尼器对合肥翡翠电视塔地震反应的控制 总被引:5,自引:0,他引:5
摩擦阻尼器是一种构造简单的耗能减振装置,已应用于国内外多座新建建筑的抗震设计和已建建筑的抗震加固.半主动磨擦阻尼器则通过调整阻尼器的起滑力来改善被动摩擦阻尼器的耗能减振性能。本文研究了被动及半主动摩擦阻尼器对于高耸塔架结构地震反应的减振效果。为满足摩擦阻尼器对高耸塔架结构风振控制的特殊需要,本文建立了合肥电视塔的空间桁架有限元模型和串联多自由度体系模型,并在形成控制力变换矩阵和计算摩擦阻尼器两端的相对位移的过程中综合地运用了这两种力学模型。在半主动摩擦阻尼器的控制策略方面,本文提出了一种基于次优控制理论的半主动控制策略.本文研究表明,摩擦阻尼器可以抑制高耸塔架结构的地震反应.而半主动摩擦阻尼辞的耗能减振效果明显优于被动摩擦阻尼器. 相似文献
3.
结构被动耗能减振效果的参数影响 总被引:58,自引:6,他引:52
本文研究粘滞、粘弹、金属屈服和摩擦型上类与斜撑串联的被动耗能器对结构减振效果的参数影响。首先,建立了结构、耗能器和斜撑共同工作的计算模型;然后考虑不同耗能器的特点,给出了相应的运动方程;第三,通过大量的数值计算,研究了耗能器刚度(或耗能器与斜撑的组合刚度)、屈服位移等参数对结合减振结果的影响,得到了这些参数的最佳取值范围,从而为结构的耗能减振设计提供了基础。 相似文献
4.
钢筋混凝土耗能减振结构的地震损伤简化分析方法 总被引:1,自引:0,他引:1
本文提出了钢筋混凝土耗能减振结构地震反应和损伤分析的简化方法.首先给出了考虑轴力变化效应的耗能减振结构Pushoverr分析方法,以及结构等价阻尼比ζ的计算公式;其次,结合文献[12]中提出的"三水准"地震损伤性能目标,提出了耗能减振结构基于能力谱法的地震反应、损伤分析与性能设计方法;最后,对一座设置金属屈服型耗能器的四层钢筋混凝土框架结构进行了地震反应和损伤分析. 相似文献
5.
磁流变耗能器性能的试验研究 总被引:42,自引:9,他引:33
磁流变耗能器是新型的智能型耗能器,是实现半主动控制的理论元件。本文在文献「3」的基础上设计制作了磁流变耗能器是新型的试验研究了耗能器的磁场强度,阻尼性能和响应时间,为此类耗能器用于结构被动减振和主动控制提供了基础。 相似文献
6.
土-结构相互作用地震反应的非经典振型分解反应谱方法 总被引:2,自引:0,他引:2
土-结构联合动力体系是非正交阻尼系统,本文建立了这种非正交阻尼系统地震反应的非经典振型分解反应谱方法,并提出了各非经典振型谱反应的组合公式。这种反应谱方法包含两个反应谱——实部反应谱和虚部反应谱。当假定地震加速度为具有平缓的功率谱平稳随机过程时,上述两个反应谱近似相等。对EL Centro(1940)和天津(1976)地震记录的计算也表明了这一点。对实际高层建筑和高耸结构的计算表明,该法计算简便,易为实际工程抗震分析所应用。 这种方法适用于诸如流体-结构、流体-土-结构以及不同性质材料组成的组合结构等任何非正交阻尼系统的地震反应分析。 相似文献
7.
被动及半主动摩擦阻尼器对合肥悲翠电视塔地震反应的 … 总被引:3,自引:0,他引:3
摩擦阻尼器是一种构造的耗能减振装置,已应用于国内外多座新建建筑的抗震设计和已建建筑的抗震加固。半主动摩擦阻尼器则通过调整阻尼器的起滑力来改善被动摩擦阻尼器的耗能减振性能。本文研究了被动及半主动摩擦阻尼器对于高耸塔架结构地震反应的减振效果。为满足摩擦阻尼器对高耸塔架结构风振控制的特殊需要,本文建立了合肥电视塔的空间桁架有限元模型和串联多自由度体系模型,并在形成控制力变换矩阵和计算摩擦阻尼器两端的相对 相似文献
8.
《地震工程与工程振动》2020,(4)
讨论了指数阻尼体系地震反应的振型分解方法,基于复模态叠加法与状态空间法给出了地震作用下的动力反应计算的实数形式一般解答;同时,为了方便抗震设计计算,以上述实数形式一般解答为基础,推导了指数阻尼系统以反应谱表示的地震作用计算公式,从而使指数阻尼系统的抗震设计与一般黏滞阻尼系统的抗震设计的过程相吻合;最后基于Matlab平台以两个案例分别验证了阻尼矩阵非奇异与部分奇异的情况下计算方法的正确性与有效性,并与常用时程积分方法计算结果对比,说明可以满足工程计算的需要。 相似文献
9.
一种新型金属变摩擦耗能器的研发与应用 总被引:5,自引:0,他引:5
基于被动控制理论,提出一种新型的金属变摩擦耗能阻尼器。通过改变金属摩擦面的摩擦面积,使摩擦系数具有随位移改变而变化的特性。在金属摩擦学理论的基础上,建立了金属变摩擦耗能器的阻尼力计算模型与产品的开发。理论计算与实验数据表明:新型金属变摩擦耗能器的减震性能显著优于常规阻尼器,避免了传统阻尼装置(如油阻尼器)存在的造价高、维护复杂、易漏油的问题;克服了常规摩擦耗能器不能在不同大小荷载作用下保持同样控制效果的缺点,能做到抗震耗能器在不同荷载下保持很好的抗震效果,真正做到"小震小位移少耗能,大震大位移多耗能"的智能控制。 相似文献
10.
连梁作为剪力墙结构中的抗震第一道防线,其承载力和耗能能力对整体结构的抗震性能有重要影响。本文提出在连梁中附设粘滞阻尼器,利用阻尼器发生竖向剪切变形而耗能。结合实际工程研究粘滞阻尼耗能连梁的性能,采用ETABS和PERFORM-3D软件对粘滞阻尼耗能连梁结构与传统连梁结构进行有限元模拟对比分析,并对粘滞阻尼耗能连梁的各项最优参数进行研究。结果表明:粘滞阻尼耗能连梁充分发挥耗能作用,整体结构具有良好的抗震性能,与传统连梁结构相比,主体结构的弹性耗能得到明显降低。平面布置方式、竖向布置方式、阻尼器参数的选取对附设粘滞阻尼耗能连梁的框架-核心筒结构减震效果影响较大,合理选择这些参数可以使耗能结构减震效果最优。 相似文献
11.
Several types of energy dissipation devices using viscoelastic materials have been proposed to reduce vibration in structures subjected to wind and earthquake excitations. At constant temperature and small strain levels, the mechanical behaviour of Viscoelastic (VE) materials can be described using linear operators. In general, the stiffness and damping matrices of structures using VE devices are frequency dependent; this implies that the classical second-order differential equations for the modal co-ordinates are not a complete model for this type of structures. In this paper, the concept of modal coupling in the frequency domain is addressed, expressions for diagonalizable frequency-dependent stiffness and damping matrices are given, and an iterative technique for the computation of the response of viscoelastic structures is studied. Necessary and sufficient conditions for convergence of the technique are given and numerical examples are developed to illustrate the application of the method. 相似文献
12.
基于反应谱理论的复模态抗震设计方法 总被引:5,自引:0,他引:5
本文结合我国现行《建筑抗震设计规范》,采用复模态理论分析技术对结构非正交阻尼阵进行解耦,导出了基于反应谱理论的耗能减震结构的复模态抗震设计方法。文中提出了完整、系统的耗能减震结构复模态抗震设计方法的程序,并给出若干抗震设计实例。算例结果表明:该设计方法准确、实用,具有一定的理论意义与工程意义。 相似文献
13.
Seismic analysis of structures with a fractional derivative model of viscoelastic dampers 总被引:3,自引:3,他引:0
Viscoelastic dampers are now among some of the preferred energy dissipation devices used for passive seismic response control.
To evaluate the performance of structures installed with viscoelastic dampers, different analytical models have been used
to characterize their dynamic force deformation characteristics. The fractional derivative models have received favorable
attention as they can capture the frequency dependence of the material stiffness and damping properties observed in the tests
very well. However, accurate analytical procedures are needed to calculate the response of structures with such damper models.
This paper presents a modal analysis approach, similar to that used for the analysis of linear systems, for solving the equations
of motion with fractional derivative terms for arbitrary forcing functions such as those caused by earthquake induced ground
motions. The uncoupled modal equations still have fractional derivatives, but can be solved by numerical or analytical procedures.
Both numerical and analytical procedures are formulated. These procedures are then used to calculate the dynamic response
of a multi-degree of freedom shear beam structure excited by ground motions. Numerical results demonstrating the response
reducing effect of viscoelastic dampers are also presented. 相似文献
14.
阻尼比是消能减震结构设计的重要参数,对消能减震结构设计具有决定性影响。消能减震结构设汁巾阻尼是时变参数,消能减震结构是非经典阻尼结构。采用复模态设计方法、强解耦振型分解法、基于变形能的等效阻尼法三种方法分别对不同情况的消能减震结构阻尼比进行研究,得到选择消能减震设计疗法和不同方法计算精度的规律,对消能减震结构设计具有参考价值。 相似文献
15.
黏滞阻尼器作为一种有效的消能减震装置,已在钢结构建筑中得到了大量应用.然而由于钢结构的延性和阻尼特征,实用的钢结构附加黏滞阻尼器设计方法仍需深度探讨.文中提出一种基于黏滞阻尼器延性需求的减震设计方法.首先,根据钢结构需求量化层间位移角性能目标及目标附加阻尼比,计算黏滞阻尼器延性需求,并确定黏滞阻尼器布置数量、进行控制效... 相似文献
16.
Diagonal damping matrices were computed for three systems which have non-proportional damping matrices. These diagonal damping matrices were computed on three bases, as follows: 1. After normalizing the equations of motion by the modal matrix, the diagonal terms are retained ignoring the non-diagonal terms. 2. Diagonal damping matrix is established by the optimization algorithm which minimizes the mean square error of the frequency response. 3. Diagonal damping is determined from the normalized differential equation by matching the peaks of the coupled and uncoupled system. The frequency responses for the three cases of one of the three systems are presented together with a comparison of the energy dissipation. 相似文献
17.
消能减震结构设计参数研究与试验验证 总被引:10,自引:1,他引:9
本文就消能减震结构设计参数,即消能部件的支撑刚度、层间最大阻尼力与结构层间屈服力比值等恢复力模型参数的选取进行了讨论。通过对消能装置的耗能特性理论分析,导出了消能装置产生的层间等效阻尼比与这些参数的关系曲线,建议了这些参数的合理取值范围。同时通过对两个消能减震试验结果的分析,验证了本文建议的参数取值的合理性。 相似文献
18.
Optimum isolation damping for minimum acceleration response of base-isolated structures subjected to stationary random excitation is investigated. Three linear models are considered to account for the energy dissipation mechanism of the isolation system: a Kelvin element, a linear hysteretic element and a standard solid linear element, commonly used viscoelastic models for isolation systems comprising natural rubber bearings and viscous dampers. The criterion selected for optimality is the minimization of the mean-square floor acceleration response. The effects of the frequency content of the excitation and superstructure properties on the optimum damping and on the mean-square acceleration response are addressed. The study basically shows that the attainable reduction in the floor acceleration largely depends on the energy dissipation mechanism assumed for the isolation system as well as on the frequency content of the ground acceleration process. Special care should be taken in accurately modelling the mechanical behaviour of the energy dissipation devices. 相似文献
19.
A new direct performance‐based design method utilizing design tools called performance‐spectra (P‐Spectra) for low‐rise to medium‐rise frame structures incorporating supplemental damping devices is presented. P‐Spectra are graphic tools that relate the responses of nonlinear SDOF systems with supplemental dampers to various damping parameters and dynamic system properties that structural designers can control. These tools integrate multiple response quantities that are important to the performance of a structure into a single compact graphical format to facilitate direct comparison of different potential solutions that satisfy a set of predetermined performance objectives under various levels of seismic hazard. An SDOF to MDOF transformation procedure that defines the required supplemental damping properties for the MDOF structure to achieve the response defined by the target SDOF system is also presented for hysteretic, linear viscous and viscoelastic damping devices. Using nonlinear time‐history analyses of idealized shear structures, the accuracy of the transformation procedure is verified. A seismic performance upgrade design example is presented to demonstrate the usefulness of the proposed method for achieving design performance goals using supplemental damping devices. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
20.
非线性粘滞阻尼器消能结构设计方法探讨 总被引:2,自引:0,他引:2
在建立非线形粘滞阻尼器消能结构性能曲线的基础上,建议了依据减震性能目标确定阻尼器参数的概略设计方法。提出了多自由度非线性粘滞阻尼器消能结构的等效阻尼比计算公式。在此基础上建议了适用于多自由度非线性粘滞阻尼器消能结构地震反应预测的模态叠加法,方法与时程分析结果对比吻合良好。为使各层阻尼器参数更好地满足减震性能要求,提出了将概略设计得到的层阻尼器参数依据减振性能目标进行调整的方法。 相似文献