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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
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《地震工程与工程振动》2017,(5)
结合自锚式悬索桥减震控制的研究现状,对大行程板式铅阻尼器在罕遇地震作用下的减震效果进行了分析研究。通过对比铅阻尼器和黏滞阻尼器的分析结果发现,在两种减震方案下结构的地震响应最大值(塔顶纵向位移、梁端纵向位移和塔底纵向弯矩)相差不大。可以说,只要阻尼器的选型(相关力学参数)恰当,大行程板式铅阻尼器的减震效果明显,且与黏滞阻尼器的相当。由于使用寿命长、构造简单、成本低,而且满足结构减震控制对大行程的需求,大行程板式铅阻尼器在独塔自锚式悬索桥减震控制中具有良好的应用前景。 相似文献
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高烈度地震对铁路桥梁安全造成巨大隐患,且次生灾害将引起较大经济损失。该大跨连续梁桥所处地震带正进入活跃期,未来有发生较大规模强烈地震的可能,但桥梁自身不具备高烈度抗震能力,需利用粘滞阻尼器对其进行减震处理。采用斜向设置阻尼器并配合双曲面球型支座,来控制可能发生的纵向和横向地震。通过数值模拟进行阻尼器参数敏感性分析以及减震效果讨论,进而确定其最优设置方案。选取相关参数作为评价指标,对比加设阻尼器前后易损部位的地震响应,确定其在高烈度地震荷载激励下的减震效果。研究结果表明:在液体粘滞阻尼器的作用下,使得各墩协同受力,大大增加了结构的整体性,同时能很好弥补减隔震支座不能很好的控制上部结构位移的缺点,同时能降低罕遇地震力对桥墩的冲击损伤。因此,在高烈度区大跨度桥梁中更有必要设置阻尼器来抗震。 相似文献
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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
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高烈度区连续梁桥的减震设计方法研究 总被引:2,自引:1,他引:2
本文以高烈度区的某三跨连续梁桥为例,分别采用基础隔震和消能减震两种措施进行结构的减震分析;针对隔震结构减震效果好但主梁位移过大的特点,提出了在采用铅芯橡胶隔震支座的同时设置粘滞阻尼器的减震方案,其非线性时程分析结果表明,该方案能有效地降低结构的地震反应,可供工程实践参考。 相似文献
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大跨斜拉桥的近断层地震响应及减震控制 总被引:2,自引:0,他引:2
近断层地震长周期成分丰富,存在速度大脉冲效应;而大跨度斜拉桥一般采用半漂浮体系或漂浮体系,所以固有频率较低。为了研究大跨度斜拉桥在近断层地震作用下的反应规律及减震措施,利用ANSYS软件分析了某半漂浮体系的大跨斜拉桥在近断层地震作用下的时程响应,并对其减震控制方法进行了探讨。研究表明,大跨度斜拉桥的近断层地震响应随着PGV/PGA值的增大而增大,且增大幅度较大,近场脉冲效应较为显著;对于近断层地震作用,不建议采用塔梁弹性连接装置作为主梁纵漂的减震措施,而采用参数适宜的铅挤压阻尼器和粘滞阻尼器则均能获得很好的减震效果;由于大跨度斜拉桥的近断层地震反应较大,应提高其支座的设计允许位移。 相似文献
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本文提出了在外套框架加层结构中采用摩擦阻尼器和砂垫层作为减震装置,进行增设摩擦和消能的加层结构模型的振动台试验,结果表明,采用摩擦和消能装置能有效地减小加层结构的地震反应。在此基础上,对采用摩擦和消能装置加层结构的构造措施进行了研究。 相似文献
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本文以某公共建筑改造工程为背景,针对改造过程中存在的大量梁、柱承载力不足,且主控参数超限等问题,提出了在框架结构中适当位置增设黏滞阻尼器的加固方案,使改造后的结构形成消能减震体系,减小地震作用。采用有限元软件分析了加固方案下结构在多遇和罕遇地震作用下的时程反应,研究了消能减震效果。结果表明,经加固改造后,各主控参数均可满足现行规范要求,大幅度提高了罕遇地震作用下结构抗震性能;通过合理设置黏滞阻尼器,减小了地震作用,大幅度缩小了梁、柱加固范围。 相似文献
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由于受制于计算机软件中的消能减震单元,目前尚无较适用的静力分析方法应用于消能减震结构在多遇地震和罕遇地震下的结构分析。有关含消能减震部件的结构分析,主要以动力时程分析和动力弹塑性时程分析方法为主,因此具有较大的难度和需要很长的分析时间。为了推进结构消能减震于工程项目上的应用,缩短分析上的繁杂程序,依据《建筑抗震设计规范》,配合美国FEMA 356规范,提出一套消能减震结构在多遇地震下的等值线性分析方法和在罕遇地震下的静力非线性推覆分析方法(pushover analysis)。此方法适用于位移型阻尼器和防屈曲支撑,不但可使消能减震结构的结构分析简化,并可避免计算机软件的限制,且在不含阻尼器元素的计算机软件上,依然可做消能减震结构在多遇地震和罕遇地震下的结构分析。并介绍了此分析方法在消能减震结构的结构分析中的应用,以证明其可行性。 相似文献
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The aseismic design of cable-stayed bridges in the transverse direction with newly proposed metallic dampers that can accommodate both longitudinal and transverse movement of the deck has recently been considered. This work focuses on developing a simplified method to design an appropriate metallic damper. The seismic performance of cablestayed bridges with different damper stiffness, main span lengths, tower shapes and types of deck in the transverse direction are investigated. The transverse displacement of the deck of a cable-stayed bridge increases significantly with the increment of the damper stiffness, which proves that the design of the damper stiffness is crucial. A simplified model considering the damper stiffness, cable system and tower in the transverse direction is developed to evaluate the period and lateral displacement of a complicated cable-stayed bridge. Based on the simplified model, a design method is proposed and assessed using two cable-stayed bridges as examples. The results show that metallic dampers can be designed with high efficiency, and the optimal ductility of the damper can be selected. 相似文献
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Nefize Shaban Alp Caner Ahmet Yakut Aysegul Askan Ali Karimzadeh Naghshineh Arman Domanic Gizem Can 《地震工程与结构动力学》2015,44(6):889-905
Presence of vehicles on a bridge has been observed many times during past earthquakes. Although in practice, the engineers may or may not include the live load contribution to seismic weight in design, current bridge design codes do not specify a certain guideline. A very limited research has been conducted to address this issue from design point of view. The focus of this research is to experimentally assess the effect of a vehicle on the seismic response of a bridge through a large‐scale model. In this scope, a 12‐meter long bridge, having a one lane deck with concrete slab on steel girders, has been shaken under five different ground motions obtained from recent earthquakes that occurred in Turkey, in its transverse direction, both with and without a vehicle on top of the deck. The measured results have indicated that top slab transverse acceleration and bearing displacements can reduce up to 18.7% in presence of a vehicle during seismic tests, which is an indication of reduction in substructure forces. The main reason for the reduction in seismic response of the bridge in the presence of live load can be ascribed to the increase in damping of the system due to mass damper‐like action induced by the vehicle. This beneficial effect cannot be observed in vertical seismic response. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
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In this paper, the seismic response reduction performance of magnetorheological (MR) damper is experimentally investigated for a suspension bridge. First, the force–displacement and force–velocity curves under a range of excitation frequencies, amplitudes and currents are obtained by mechanical behavior test of the RD1097 type MR damper. Then a new non-linear hysteretic model is proposed to model the mechanical behavior of the MR damper and the model parameters are identified from test data. An experimental method, as well as a set of testing setups with the MR damper for longitudinal seismic response reduction of a SDOF generalized system representing the fundamental longitudinal mode of suspension bridge, is developed. Finally, the seismic response reduction experiment subject to three kinds of earthquake excitations, including the Pingsheng Bridge earthquake wave, the El-Centro wave and the Taft wave, is carried out, and nine control cases, including uncontrolled, six passive control schemes with different input currents and two semi-active Bang–Bang control schemes, are tested. The results verify that the seismic response reduction experimental method is feasible and the good performance of seismic longitudinal response reduction of the suspension bridge can be achieved by MR damper. It is also shown that the passive control with optimum input current outperforms the semi-active Bang–Bang controls. 相似文献
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营运状况下漂浮体系悬索桥加劲梁纵向运动产生的过大累积行程会引起伸缩缝和塔梁纵向阻尼器等连接构件的性能退化和疲劳损坏.探索加劲梁纵向运动过大累积行程的成因,并找出降低累积行程的控制措施是确保悬索桥健康运营的关键.首先,以江阴长江大桥实测位移时程数据为基础,对不同频谱特性的位移成分进行分解,并统计了不同位移成分的循环次数和... 相似文献
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以南京江心洲大桥主桥为研究对象,采用大型有限元分析软件ANSYS建立了该独塔自锚式悬索桥的三维有限元模型,采用子空间迭代法对该桥模型进行了自振特性的分析,在其中考虑了几何非线性的影响。对该桥模型进行模态分析。在此基础上运用反应谱法计算了该桥的纵向、横向、竖向、纵向+竖向以及横向+竖向的地震响应,并针对其主要截面位置进行分析。结果表明,横向地震下的塔底应力比纵向、竖向输入下大,竖向地震作用下主梁地震应力要比横向、纵向地震作用下的大,塔顶位移在纵向+竖向地震动输入时的位移值最大等。研究结果对同类桥型的工程抗震研究具有参考意义。 相似文献
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The potential application of tuned liquid column damper (TLCD) for suppressing wind-induced vibration of long span bridges
is explored in this paper. By installing the TLCD in the bridge deck, a mathematical model for the bridge-TLCD system is established.
The governing equations of the system are developed by considering all three displacement components of the deck in vertical,
lateral, and torsional vibrations, in which the interactions between the bridge deck, the TLCD, the aeroelastic forces, and
the aerodynamic forces are fully reflected. Both buffeting and flutter analyses are carried out. The buffeting analysis is
performed through random vibration approach, and a critical flutter condition is identified from flutter analysis. A numerical
example is presented to demonstrate the control effectiveness of the damper and it is shown that the TLCD can be an effective
device for suppressing wind-induced vibration of long span bridges, either for reducing the buffeting response or increasing
the critical flutter wind velocity of the bridge. 相似文献