共查询到20条相似文献,搜索用时 203 毫秒
1.
铅阻尼器在自锚式悬索桥横向减震设计中的应用研究 总被引:1,自引:0,他引:1
某自锚式钢桁架悬索桥结构主跨408m,采用双层桥面,2根主缆为空间线形布置。本文根据自锚式悬索桥独特的动力特性,提出在悬索桥主梁与过渡墩、辅助墩之间沿横向设置铅挤压阻尼器的消能减震设计方案,以控制悬索桥的横向地震反应。根据风、行车和地震荷载等各种工况可能引起的支座剪力值,提出了铅挤压阻尼器临界滑移荷载值的确定方法。研究表明,同时采用铅挤压阻尼器和粘滞阻尼器的消能减震技术,可以有效地减小悬索桥的横向地震反应,可供工程实践参考。 相似文献
2.
本文根据某自锚式悬索桥独特的动力特性,分别提出了在悬索桥主梁与主塔之间沿纵向设置粘滞阻尼器和铅挤压阻尼器的消能减震设计方案,来控制悬索桥的纵向地震反应。研究表明,采用以上2种消能减震技术,可以有效地减小悬索桥的纵向地震反应。本文研究结果可供工程实践参考。 相似文献
3.
伸缩缝刚度对大跨度悬索桥动力特性的影响 总被引:1,自引:1,他引:0
伸缩缝作为大跨度桥梁与引桥之间的重要连接构件,其抗推刚度及可能存在的变异性对主桥及引桥动力特性的影响不可忽略。本文建立了大跨度悬索桥及引桥的有限元模型,采用弹簧单元模拟加劲梁与引桥箱梁之间的伸缩缝,分析伸缩缝刚度对悬索桥及引桥自振特性及其地震响应的影响规律。分析结果表明:伸缩缝刚度对加劲梁的横弯振型、竖弯与纵飘耦合振型的频率有明显的影响;伸缩缝刚度的变化会导致加劲梁与引桥的振型相互耦合,同时这些振型的频率发生相应的突变,当伸缩缝刚度较大时,加劲梁两个竖弯与纵飘的耦合振型解耦成为独立的竖弯和纵飘振型;当引桥与悬索桥加劲梁的纵飘振型发生耦合时,在纵向和竖向地震作用下的悬索桥及引桥的地震响应达到最小。伸缩缝刚度对悬索桥动力特性影响的分析可为悬索桥的模态参数确认、损伤识别、抗震性能分析提供有价值的借鉴。 相似文献
4.
《地震工程与工程振动》2019,(1)
针对钢-混凝土叠合梁自锚式悬索桥的结构特点,在总结以往大跨径桥梁有限元模型的基础上,采用组合有限元法以梁、板、杆、索单元建立邵阳市桂花大桥三维有限元模型,计算分析获得结构的主要频率和振型。通过现场测试获得大桥环境激励和行车激励作用下的响应时程,分析得到结构的主要频率、振型和阻尼比,引入模态置信因子对计算模态信息和实测模态信息进行比较分析,以验证数值模型和实测结果的准确性。研究结果可为全面了解钢-混凝土叠合梁自锚式悬索桥的动力特性、准确预测结构的动力响应以及类似桥梁的抗震、抗风设计提供重要依据。 相似文献
5.
钢筋混凝土加劲桁架悬索桥的模态分析 总被引:8,自引:0,他引:8
采用ANSYS软件对钢筋混凝土土加劲架悬索桥进行有限元分析,提出较为准确的建模方法和最优初始应变的取值条件,使计算结果能满足工程分析精度要求。在此基础上进行了模态分析,计算了钢筋混凝土加劲杵架悬索桥的动力特征及主要结构参数对动力学特性的影响,并对福建三明下洋悬索桥进行实桥测试与分析比较,研究结果有助于对该类悬索桥力学性能的认识。 相似文献
6.
《地震工程与工程振动》2021,41(3)
悬索管桥具有比传统悬索路桥柔性大、阻尼低、频谱不均匀、自重轻、横向刚度小等的典型特性,动力学行为复杂,更容易引起结构失效和破坏。文中以漾濞江油气集输悬索管桥为研究对象,基于Midas软件建立了地震载荷条件下的悬索管桥有限元模型,开展了悬索管桥的地震响应、抗震性能数值模拟研究,揭示了管桥体系的危险区域和可能存在的破坏形式,发现:合理设置吊杆和拉索分布密度,对悬索桥自身的抗震有利。根据相似原理,搭建了漾濞江悬索管桥的室内实验系统,探究悬索桥动力特性及结构参数对动力特性的影响规律,验证了数值模拟正确性,为漾濞江油气集输悬索管桥的抗震性能设计提供理论指导。 相似文献
7.
三塔单索面斜拉桥在空间动力行为方面有其独特之处.以济南建邦黄河公路大桥为例,运用有限元方法建立桥梁的空间动力数值分析模型,构建结构特征方程,在频率范围1 600~0 cps,频移为1 cps基础上运用lanczos法解此方程获得结构空间动力特性;进而利用拟相对速度反应谱SV和拟绝对加速度反应谱SA之间的数学关系,在大量地震记录中选择与场地特征周期基本一致的波谱,对其峰值加速度和持续时间进行调整后直接输入动力数值模型;采用质量和刚度因子法计算结构各振型阻尼比,以恒载作用下结构受力状态作为初始状态,运用Newmark-β显式直接积分法迭代求解结构动力微分方程组,并取γ≥0.5且β≥γ/2以满足其无条件稳定;考虑恒载作用在地震发生过程中对结构产生的二阶效应,获得非线性地震响应数值解,并由此总结出该类桥型的地震响应一般规律.结果可为该类桥型的抗震设计提供参考. 相似文献
8.
大跨度悬索桥振动控制的双向TMD参数研究 总被引:1,自引:1,他引:0
用时域内的逐步积分法对无TMD和带有不同参数TMD的悬索桥进行了时程分析,结果表明,TMD的参数对结构的动力特性的抑振效果均有较大的影响,TMD的频率不仅影响振动控制的效果也影响结构的表观阻尼,扭转振动的控制可由侧向TMD来实现。 相似文献
9.
10.
四渡河大跨悬索桥空间地震响应分析 总被引:2,自引:0,他引:2
非一致激励输入对大跨结构响应有着较大影响。本文以四渡河悬索桥为背景,首先根据该桥动力特性对规范反应谱进行调整,基于修正反应谱并考虑相位非平稳性合成地震动位移;然后编制了调索程序来确定有限元模型的初始平衡构型;采用时程法,分别分析了在纵桥向、横桥向以及竖向的非一致激励(行波输入、多点输入)下的悬索桥地震响应。计算结果表明,纵向非一致激励输入增大了悬索桥的地震响应,横向、竖向非一致激励输入的影响有增有减。 相似文献
11.
Nine PHC piles with partial normal-strength deformed bars were prepared in present study, and cyclic loading tests were implemented to evaluate these piles’ seismic performance. The influence of the axial compression ratio and the amount of normal-strength deformed bars on failure modes, crack patterns, strength, stiffness, and ductility were examined. The test findings indicate that the change of axial compression ratio has a noticeable influence on the failure mode of PHC piles. A larger axial compression ratio results in a higher cracking bending resistance, ultimate bending resistance, and initial stiffness, but the propagation heights of flexural cracks decrease as the axial compression ratio increases. Furthermore, increasing the amount of normal-strength deformed bars causes a slight decrease in ductility. Finally, a calculation formula was proposed to predict the flexural capacity of PHC piles with partial normal-strength deformed bars. 相似文献
12.
The dynamic non-linear behaviour of three-dimensional long-span cable-stayed bridges under seismic loadings is studied. The cases of multiple-support as well as uniform seismic excitations of these long and flexible structures are considered. Different sources of non-linearity for such bridges are included in the analysis, as outlined in the companion paper. In this accompanying analysis a tangent stiffness iterative procedure is utilized to estimate the non-linear seismic response. Numerical examples are presented in which a comparison between a linear earthquake-response analysis (based on the utilization of the tangent stiffness matrix of the bridge at the dead-load deformed state which is obtained from the geometry of the bridge under gravity load conditions) and a non-linear earthquake response analysis using the step-by-integration procedure is made. In these examples two three-dimensional bridge models representing recent and future trends in cable-stayed bridge design are utilized. The study sheds some light on the salient features of the seismic analysis and design of these long contemporary bridges. In addition, parameters affecting the seismic response of these bridges are discussed: other factors considered are non-linearity, uniformity and spatial variation of ground motion inputs and structural configuration. 相似文献
13.
The dynamic response of a cable-stayed bridge to seismic, wind and simulated traffic loads is discussed. The analysis procedure which is used considers non-linear behaviour of the cables, caused by the variation in sag with tensile force, and non-linear behaviour of the bending members, caused by the interaction of axial and bending deformations. It is concluded that the non-linearity of the structure must be considered in determining the stiffness of the structure in the dead load deformed state. A linear dynamic analysis, however, starting from the dead load deformed state will give results within normally required design accuracy. 相似文献
14.
理论研究与高空探测结果表明,地磁层的边界在太阳风的作用下将发生形变,形成一个水滴式的界面。本文讨论了带电粒子在这样一个磁层內的运动,以及它与某些非轴对称的空间物理相关现象的关系。由于带电粒子在形变后的地磁場內的运动是比较复杂的,因此我们只讨论这些粒子的迴旋中心在整个漂移运动中所在的卢等于常数的漂移曲面。计算结果表明,磁层內捕获区的立体图形相对于磁轴来说是非轴对称的,向阳面此背阳面大,这个结果与人造卫星的採测结果以及极光日变化的资料是很接近的。与此同时,我们还统计了1957与1958年高纬度区31个地磁台在平靜时每天的平均日变化。所有上述结果表明,在磁层內的上述相关现象都是非轴对称的。 相似文献
15.
Out‐of‐plane stability assessment of buckling‐restrained braces including connections with chevron configuration 
下载免费PDF全文
下载免费PDF全文 One of the key limit states of buckling‐restrained braces (BRBs) is global flexural buckling including the effects of the connections. The authors have previously proposed a unified explicit equation set for controlling the out‐of‐plane stability of BRBs based on bending‐moment transfer capacity at the restrainer ends. The proposed equation set is capable of estimating BRB stability for various connection stiffnesses, including initial out‐of‐plane drift effects. However, it is only valid for symmetrical end conditions, limiting application to the single diagonal configuration. In the chevron configuration, the out‐of‐plane stiffness in the two ends differs because of the rotation of the attached beam. In this study, the equation set is extended to BRBs with asymmetric end conditions, such as the chevron configuration. Cyclic loading tests of the chevron configuration with initial out‐of‐plane drifts are conducted, and the results are compared with the proposed equation set, which is formulated as a function of the normalized stiffness of the attached beam. © 2016 The Authors. Earthquake Engineering & Structural Dynamics published by John Wiley & Sons Ltd. © 2016 The Authors. Earthquake Engineering & Structural Dynamics published by John Wiley & Sons Ltd. 相似文献
16.
The critical parameters that influence the nonlinear seismic response of asymmetric‐plan buildings are identified by evaluating the effects of different asymmetries that may characterize the structure of a building as well as exploring the influence of the ground motion features. First, the main findings reported in the literature on both the linear and nonlinear dynamic response of asymmetric‐plan buildings are presented. The common findings and the conflicting conclusions reached in different investigations are pointed out. Then, the results of comprehensive nonlinear dynamic analyses performed for evaluating the seismic response of systems characterized by different strength and stiffness configurations, representative of a large class of asymmetric‐plan buildings, are reported. Findings from the study indicate that the building response changes when moving from the linear to the nonlinear range, so that the seismic behavior of asymmetric‐plan buildings, apart from the source of asymmetry, can be always classified as irregular. Additionally, it was observed that as the seismic demands cause amplification of system nonlinearity with increasing earthquake intensity, the maximum displacement demand in the different resisting elements tends to be reached with the same deformed configuration of the system. The resultant of the seismic forces producing such a maximum demand is located at the center of resistance and corresponds to the collapse mechanism of the system that provides the maximum lateral strength in the exciting direction of the seismic action. Copyright © 2008 John Wiley & Sons, Ltd. 相似文献
17.
A rock cylinder, containing a clay-filled sawcut making an angle of 30° to the sample axis, was deformed at constant confining and pore pressures and constant remote shortening rate. The sawcut surfaces contained a series of regularly spaced ridges and grooves oriented perpendicular to the direction of shear. The interaction of these grooved surfaces resulted in a sliding strength which varied periodically with displacement. By varying the effective machine stiffness through the use of an electronic feedback circuit, a range of stable and unstable slip behavior was achieved. In this way, we examined fault slip behavior which was dominated by displacement-dependent strength. 相似文献
18.
为进一步改善框架结构平面内和平面外抗震性能,本文提出带X形斜撑的新型砌体填充墙构造方案,并进行了4榀蒸压加气混凝土砌块砌体填充墙框架结构试验,以研究墙体构造措施和墙-框连接方式对框架结构抗震性能的影响。首先进行平面内水平低周往复荷载试验,随后进行历经平面内损伤的平面外单调静力加载试验,最后进行承载力、刚度退化和耗能能力等抗震性能指标的分析。结果表明:墙-框柔性连接方案下,填充墙框架结构的平面内及平面外水平承载力和初始刚度均小于刚性连接方案,而变形能力、耗能能力和位移延性等性能指标均比刚性连接表现更好;墙-框柔性连接且填充墙带X形斜撑框架结构的平面内及平面外抗震性能指标均有明显改善,更有利于抗震。 相似文献
19.
Kazuo Konagai Yuanbiao Yin Yoshitaka Murono 《Soil Dynamics and Earthquake Engineering》2003,23(3):31-39
Most laterally loaded piles are flexible in the sense that they are not deformed over their entire lengths. Instead, pile deflections become negligible below an ‘active pile length’ La. This La is an important parameter that governs the overall behavior of a rigidly capped pile group. In the present approach, piles closely grouped together beneath a superstructure are viewed as a single equivalent upright beam whose stiffness matrix determines La. This idea is verified for different cases of pile spacing, and is further extended for nonlinear behavior of soils surrounding grouped piles. 相似文献
20.
An ultra-high voltage(UHV)composite bypass switch(BPS)faces increasing seismic challenges when UHV projects extend to high seismic intensity areas.The UHV composite BPS still generates excessive stress at the bottom section although hollow composite insulators with high flexural strength are adopted.Since the standard retrofitting strategy by using stiffer supports cannot reduce stress responses,wire rope isolation is introduced.The optimal design of isolation considers both stress and displacement responses since the slenderness and composite material of insulators contribute to significant displacement.The results show that properly designed isolation can significantly reduce stress without excessive displacement responses.A larger radius configuration helps to improve the applicability of small stiffness isolators under high winds.When the isolation still cannot satisfy the requirement,smaller stiffness isolators with a larger radius,or isolators with increased loops and smaller radius,can be introduced to gain better energy dissipation capacity and effectiveness in response mitigation.Accordingly,a three-step design procedure is proposed to increase the damping force but fix the rotational stiffness of isolation.Hence,the application of wire rope isolation can be extended to UHV composite BPS with a low natural frequency,but conductors with enough redundancy should be used. 相似文献