共查询到19条相似文献,搜索用时 125 毫秒
1.
黏弹性阻尼器是一种典型的被动控制装置,它可以通过黏弹性材料的剪切滞回耗能起到提高结构阻尼和减小结构地震或风振响应的作用。自主研发了损失系数不小于0.5的黏弹性材料,并基于此材料研发了新型国产黏弹性阻尼器。通过对黏弹性阻尼器足尺试件进行不同应变幅值、加载频率工况下的基本力学性能试验、以及低周疲劳性能试验,研究了不同工况下新型黏弹性阻尼器力学参数及其变化规律。试验结果表明:新型黏弹性阻尼器的损失系数在多数工况下处于0.3~0.4之间;其基本力学性能与加载频率相关性较小,随着应变幅值的增加表现出一定程度的软化特征,但在各应变幅值下均具有稳定的耗能能力;新型黏弹性阻尼器有良好的变形能力,在150%的应变下能保持稳定的基本力学性能,应变350%时仍未破坏;新型黏弹性阻尼器的疲劳性能较好,经低周疲劳加载后各项基本力学指标变化率均不超过25%。 相似文献
2.
《地震工程与工程振动》2021,41(5)
多阶梯被动变阻尼装置(multi-stage passive variable damping device, MPVDD)能够随外部激励速度变化机械式实时改变阻尼系数,同时不需要外部能量供给和反馈控制,与粘滞阻尼器相比,MPVDD耗能效果明显。在不同阶数MPVDD控制下的高层结构响应控制效果分析表明,多阶梯被动变阻尼装置出力范围大,可用于风振控制。根据风振分析结果提出了针对多阶梯被动变阻尼装置的风振控制性能水准和性能指标,以及多阶梯被动变阻尼装置高层建筑风振控制性能化设方方法,该设计方法可以对不同重现期的风荷载激励下的结构响应针对性设计,最后通过工程实例设计给出了完整的设计过程,从而证明了该方法对高层建筑风振控制的有效性和可行性。 相似文献
3.
本文针对高层建筑风振控制问题,应用基于遗传算法优化模糊规则库的模糊控制方法,通过MR阻尼器实现减小高层建筑风振反应. 采用双输入、单输出的模糊控制策略, 即以风荷载和其变化率为输入量, 以MR阻尼器所提供的控制力为输出量.利用基于遗传算法的优化的模糊规则库,根据作用模糊子集的推理方法进行模糊推理运算, 并采用常用的重心法进行解模糊处理.以某12层框架结构为例, 进行数值模拟分析,并与优化前的模糊控制策略和LQR最优控制策略进行比较.数值分析结果表明,利用遗传算法使优化模糊规则库得以优化,改善了模糊控制的效果,有效地减小了结构的风振反应. 相似文献
4.
相对传统结构,自复位墙结构在地震作用下具有更大的变形能力且几乎无残余位移,但其耗能能力较弱,需采用附加阻尼来增加整体耗能.目前,金属阻尼器已广泛用于自复位墙结构,其可显著减小结构大震下的地震响应,但小震下的位移和加速度减震效果不佳.因此,将小变形下即可耗能的黏弹性阻尼器应用于自复位墙结构中.设计一幢10层自复位墙结构,分别采用黏弹性阻尼器和 U 型金属阻尼器作为附加耗能构件,通过弹塑性时程分析对比采用两种耗能机制的结构地震响应.结果表明,黏弹性阻尼器可显著减小自复位墙结构在小震下的位移和加速度响应;U 型金属阻尼器在中震下开始耗能,在大震和巨震下,其减震效果会超越黏弹性阻尼器.因此,为进一步优化自复位墙结构在不同水准地震作用下的抗震性能,建议结合阻尼器的特点进行合理设计. 相似文献
5.
高层建筑利用TLD减小风振反应的研究 总被引:1,自引:0,他引:1
本文利用调频液体阻尼器(TLD)对高层建筑风振响应进行了控制研究。通过理论计算与分析探讨了TLD中液体质量变化及TLD安装位置的不同对所研究的高层结构风振控制作用的影响,给出了合理的计算结果。 相似文献
6.
针对某型钢混凝土框支剪力墙高层建筑结构高宽比过大、竖向刚度不规则等问题,采用耗能减震技术,在转换层与避难层处设置黏滞阻尼器,采用ETABS进行非线性动力时程分析,研究黏滞阻尼器对型钢混凝土框支剪力墙结构的地震和风荷载控制作用,提高型钢混凝土转换构件的抗震性能。研究结果表明,在不同地震动作用下黏滞阻尼器均能有效地降低型钢混凝土框支剪力墙结构的地震响应,结构峰值位移和最大层间位移角的减幅分别介于3%~45%和2%~43%,而黏滞阻尼器耗散总输入能量比例最高达73.65%;在风荷载时程作用下,结构各控制楼层的峰值位移减幅介于1%~11%之间。 相似文献
7.
《地震工程与工程振动》2017,(6)
本文选取两栋高层剪力墙结构住宅工程案例,采用ETABS软件分析并讨论了高层剪力墙结构中安装位移型钢滞变阻尼器连梁进行消能减震设计的几个关键问题。以阻尼器刚度、设计极限位移、附加阻尼比等参数为基本参量,以层间位移角和层间剪力为减震效果优劣评价指标,对比研究了阻尼器空间布设位置和数量变化对结构地震反应的影响规律。验证了阻尼器刚度参数变化影响结构主振周期变化,进一步影响层间剪力减震效果;阻尼器设计极限位移参数变化引起结构整体耗能能力变化,即阻尼器的设置增加了结构附加阻尼比尤其是大震附加阻尼比,使结构大震作用下的层间位移反应得到有效控制。给出了如下设计建议:当在高层剪力墙结构中采用消能连梁进行消能减震设计时,应尽可能将阻尼器布置在受力较大的连梁位置处,并使阻尼器的设计屈服位移和极限位移分别与结构设计弹性层间位移和弹塑性层间位移相匹配。在设计过程中应通过调整阻尼器刚度尽可能延长消能减震结构的基本振动周期,优化阻尼器布设位置和数量,最大限度地增大阻尼器对结构的附加阻尼比贡献,达到显著降低结构地震反应的目的。 相似文献
8.
林剑 《地震工程与工程振动》2015,(2):181-186
研究采用阻尼器对连体高层结构的地震响应进行振动控制。首先从结构动力方程出发,推导了在主塔与连廊之间设置有黏滞阻尼器的有控结构的基本振动控制方程;进而通过数值模拟,以某实际工程为原型,尝试将连廊与主塔间的斜撑利用黏滞阻尼器进行替换,分别在不同地震激励下比较了有控结构和无控结构的地震响应。分析结果表明,采用黏滞阻尼器可以有效降低结构的层剪力、结构位移、加速度等地震响应;同时能量分析的结果也表明本文采用的减振方案在不同地震激励下都可以有效耗散地震能量,由此得出结论采用黏滞阻尼器提高连体高层结构的抗震安全性是可行的。 相似文献
9.
MR阻尼器对桅杆结构风振响应的智能半主动控制 总被引:1,自引:0,他引:1
本文基于修正的拉格朗日坐标描述法,推导了空间四节点纤绳单元的大位移刚度矩阵的具体表达式。在将桅杆结构离散为空间四节点纤绳单元和梁单元的计算模型的基础上,建立了桅杆结构非线性风振响应分析的有限元方法。根据瞬时最优主动控制的原则,提出了MR阻尼器对桅杆结构风振反应智能半主动控制基于阻尼器位移的“开关—耗能”半主动控制策略。算例结果表明MR阻尼器能有效地减小桅杆结构的风振反应。 相似文献
10.
弦支穹顶屋盖结构的自重较轻,风荷载作用是结构设计的控制因素,应当对其风振动力响应进行研究.本文采用AR法并结合MATLAB软件对某体育馆椭圆形弦支穹顶屋盖结构的风速时程进行模拟分析,然后进行结构风振响应时程的有限元分析,得出了结构的风振系数和一些有意义的结论:其节点位移风振系数为1.74,位移风振系数随着初始预应力水平的增大而增大;风振响应过程中,拉索的预应力有所降低,靠近结构中心位置拉索的预应力损失率比靠近外部的大;初始预应力越大,预应力损失率越小;弦支穹顶结构环索预应力水平的降低会对结构的风振响应有不利的影响;弦支穹顶屋盖结构只考虑等效静力风荷载作用的结构抗风设计偏于不安全,应当考虑脉动风的作用. 相似文献
11.
For super high-rise buildings,the vibration period of the basic mode is several seconds,and it is very close to the period of the fluctuating wind.The damping of super high-rise buildings is low,so super high-rise buildings are very sensitive to fluctuating wind.The wind load is one of the key loads in the design of super high-rise buildings.It is known that only the basic mode is needed in the wind-response analysis of tall buildings.However,for super high-rise buildings,especially for the acceleration response,because of the frequency amplification of the high modes,the high modes and the mode coupling may need to be considered.Three typical super high-rise projects with the SMPSS in wind tunnel tests and the random vibration theory method were used to analyze the effect of high modes on the wind-induced response.The conclusions can be drawn as follows.First,for the displacement response,the basic mode is dominant,and the high modes can be neglected.Second,for the acceleration response,the high modes and the mode coupling should be considered.Lastly,the strain energy of modes can only give the vibration energy distribution of the high-rise building,and it cannot describe the local wind-induced vibration of high-rise buildings,especially for the top acceleration response. 相似文献
12.
为了提高高层建筑壁板结构的抗震性,需设计高层建筑在连续振动下的壁板结构失稳定BIM模型。应用软件:通过Revit塑造高层建筑模型和结构模型,结合SAP2000建模性能塑造高层建筑结构的有限元实体模型,实现高层建筑模型的转换,设计BIM模型的IFOD软件总体结构,实现BIM模型的智能化管理。参数:在BIM模型的基础上,分析了连续振动下高层建筑壁板结构风致响应,给出高层建筑壁板结构的平均风响应、脉动风响应,得出高层建筑壁板结构位移,实现了高层建筑在连续振动下的壁板结构稳定性分析。实验:实验结果说明,所设计BIM模型可对连续振动下的高层建筑加速度时程以及位移时程进行准确分析,且相比传统方法,本文方法对高层建筑在连续振动下的壁板结构是否失稳判断结果比较准确。 相似文献
13.
超高层建筑风致振动的现场实测与数值模拟 总被引:1,自引:0,他引:1
通过采用现场实测和数值模拟方法,对某超高层建筑的风致振动特性进行研究。在建筑物顶部布置结构振动监测系统,对常态风和台风作用下的结构振动响应进行测量,分析加速度、位移幅值和结构的自振特性。以实测动力特性为基础,建立超高层建筑的等效气动弹性模型,采用平均风剖面入口,联合ANSYS和CFX对风场与建筑物的流固耦合振动进行数值模拟,得到不同顶部风速下,建筑物不同高度处的位移时程、气动力系数时程及频谱分析、尾流旋涡脱落模式。将数值模拟结果与现有的实测结果进行对比分析,表明该方法模拟流固耦合振动是可行的,并可为实际超高层建筑的抗风设计和舒适性计算提供技术依据。 相似文献
14.
High-rise buildings are usually considered as flexible structures with low inherent damping. Therefore, these kinds of buildings are susceptible to wind-induced vibration. Tuned Mass Damper (TMD) can be used as an effective device to mitigate excessive vibrations. In this study, Artificial Neural Networks is used to find optimal mechanical properties of TMD for high-rise buildings subjected to wind load. The patterns obtained from structural analysis of different multi degree of freedom (MDF) systems are used for training neural networks. In order to obtain these patterns, structural models of some systems with 10 to 80 degrees-of-freedoms are built in MATLAB/SIMULINK program. Finally, the optimal properties of TMD are determined based on the objective of maximum displacement response reduction. The Auto-Regressive model is used to simulate the wind load. In this way, the uncertainties related to wind loading can be taken into account in neural network’s outputs. After training the neural network, it becomes possible to set the frequency and TMD mass ratio as inputs and get the optimal TMD frequency and damping ratio as outputs. As a case study, a benchmark 76-story office building is considered and the presented procedure is used to obtain optimal characteristics of the TMD for the building. 相似文献
15.
Accurate prediction of the dynamic responses of a high-rise building subjected to dynamic loads such as earthquake and wind excitations requires the information of its structural dynamic properties such as modal parameters including natural frequencies and damping ratios. This paper presents the identification results of the modal parameters based on field vibration tests on a 600-m high skyscraper. A set of tests, including ambient vibration test (AVT) and free vibration test (FVT), were conducted on the skyscraper to identify its modal parameters. Firstly, this paper presents and discusses the modal parameters of the skyscraper assessed by several identification methods applied to the AVT measurements. These methods include the wavelet transform (WT) method, the stochastic subspace identification (SSI) method, and the random decrement technique (RDT). Secondly, an active mass damper (AMD) system with total mass 1000 tons equipped into the skyscraper was used to excite the building for estimation of the modal parameters by FVT. Thirdly, this paper presents observations on the structural dynamic behavior of the skyscraper with the operation of the AMD system during a typhoon event. The field measurement results show that the AMD system functioned efficiently for suppression of the wind-induced vibrations of the skyscraper during the typhoon. This paper aims to further understand the structural dynamic properties of super-tall buildings and provide useful information for structural design and vibration control of future skyscrapers. 相似文献
16.
钢框架高层建筑结构是当前高层建筑设计中使用最为广泛的技术,为提升其抗震性能,本文研究将调谐质量阻尼器安装在钢框架高层建筑结构顶部,考虑到建筑空间需求、防止集中荷载和提升控制效果等因素,在相同楼层或同顶部接近楼层中设置数个较小的、频率一致的子控制装置,通过设置调谐质量阻尼器受控结构等效阻尼比求极值的方法,获取最优刚度与最优阻尼系数;将获取的结果在有限元软件中进行模态分析获取模态质量,实现钢框架高层建筑结构扭转振动的减振控制。实验结果表明,地震荷载下,该方法使得建筑结构顶层角位移峰值和角加速度峰值分别降低50%和30%左右,建筑结构响应下降19%~26%,提高了高层建筑结构的稳定性。 相似文献
17.
As high‐rise buildings are built taller and more slender, their dynamic behavior becomes an increasingly critical design consideration. Wind‐induced vibrations cause an increase in the lateral wind design loads, but more importantly, they can be perceived by building occupants, creating levels of discomfort ranging from minor annoyance to severe motion sickness. The current techniques to address wind vibration perception include stiffening the lateral load‐resisting system, adding mass to the building, reducing the number of stories, or incorporating a vibration absorber at the top of the building; each solution has significant economic consequences for builders. Significant distributed damage is also expected in tall buildings under severe seismic loading, as a result of the ductile seismic design philosophy that is widely used for such structures. In this paper, the viscoelastic coupling damper (VCD) that was developed at the University of Toronto to increase the level of inherent damping of tall coupled shear wall buildings to control wind‐induced and earthquake‐induced dynamic vibrations is introduced. Damping is provided by incorporating VCDs in lieu of coupling beams in common structural configurations and therefore does not occupy any valuable architectural space, while mitigating building tenant vibration perception problems and reducing both the wind and earthquake responses of the structure. This paper provides an overview of this newly proposed system, its development, and its performance benefits as well as the overall seismic and wind design philosophy that it encompasses. Two tall building case studies incorporating VCDs are presented to demonstrate how the system results in more efficient designs. In the examples that are presented, the focus is on the wind and moderate earthquake responses that often govern the design of such tall slender structures while reference is made to other studies where the response of the system under severe seismic loading conditions is examined in more detail and where results from tests conducted on the viscoelastic material and the VCDs in full‐scale are presented. Copyright © 2013 John Wiley & Sons, Ltd. 相似文献
18.
目的是建立5种被动的动力减振器对长宽比较大的高层建筑侧移-扭转脉动风振反应控制优化设计的统一方法。文中,在建立了5种被动动力减振器对高层建筑侧移-扭转脉动风振反应控制统一的方程的基础上,导出了被动动力减振器对高层建筑侧移-扭转脉动风振反应控制效果最优等效阻尼比和被动动力减振器最优设计参数的基本公式。通过工程实例的计算与分析,本文比较了5种被动动力减振器对高层建筑侧移-扭转脉动风振反应的控制效果,讨论了动力减振器在楼层上设置位置对动力减振器最优设计参数和控制效果的影响,得到了2个有工程价值的重要结论。 相似文献
19.
磁流变阻尼器对高层建筑风振反应的半主动控制 总被引:21,自引:3,他引:21
本文探讨了磁流变阻尼器在高层建筑风振控制中的应用,在经典线性最优控制理论的基础上,根据磁流变阻尼器的特点,提出了一种新型的半主动控制策略,应有该方法对一40层的钢结构的风振反应进行了计算机模拟,结果表明,采用磁流变阻尼器对高层建筑进行半主动控制的能够有效减小结构的风振反应。 相似文献