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以汶川大地震中严重破坏的回澜立交桥为例,基于数值模拟手段并结合现场震害调查,分析了回澜立交桥的地震破坏机理。数值分析表明,地震时设有支座的最矮的1号桥墩支座发生滑移破坏,以致刚度较大(次矮)的2号刚构桥墩承受很大的地震惯性力,2号墩首先发生弯曲屈服,此后随延性发展因抗剪能力不足最终发生剪切破坏直至倒塌损毁,呈现典型的弯剪破坏特征。现场震害调查发现,回澜立交桥震害集中于抗弯刚度较大的刚构墩上,而其余桥墩震害相对较轻,主要表现为混凝土保护层的脱落、混凝土开裂以及墩顶支座的滑移破坏等。数值分析结果与震害调查呈现出较好的一致性。 相似文献
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从板式橡胶支座及混凝土挡块抗震设计角度,以一座典型的3跨预应力混凝土连续梁桥为例,结合概率地震需求分析及桥墩、支座等抗震关键构件极限破坏状态,建立不同支座及挡块分析模型的中小跨径梁桥地震易损性曲线,研究考虑支座滑移效应及挡块破坏的中小跨径梁桥的易损性特征。研究结果表明:不考虑橡胶支座的滑移效应及混凝土挡块破坏,桥墩地震破坏概率明显增大,且会低估支座破坏概率;桥梁系统易损性受支座破坏状态的影响显著,需设置合理的限位装置;在中小跨径梁桥地震易损性分析中,考虑支座的滑移效应及混凝土挡块的破坏十分必要。 相似文献
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为评估隔震和非隔震支座对桥梁地震易损性的影响,以一座3跨连续混凝土箱梁桥为分析对象,首先建立采用铅芯橡胶隔震支座与非隔震型盆式橡胶支座下桥梁的数值模型,求得不同程度地震作用下墩顶与支座的最大位移响应;再定义转角延性比损伤指标,结合支座剪应变,分析桥墩和支座的地震易损性情况;最后通过宽界限法建立全桥地震易损性曲线。研究结果表明,支座是较容易发生损坏的构件,而桥梁系统比桥墩或支座更易发生破坏,同时铅芯橡胶支座的破坏概率明显低于非隔震型盆式支座,可见采用隔震支座能有效减小桥墩墩顶在地震作用下的最大位移,此时桥墩地震易损性优于采用非隔震支座的情况。 相似文献
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针对曲线桥梁在地震中因固定支座处及桥墩底部受力过大而破坏严重的现象,提出考虑支座摩擦滑移隔震的曲线桥梁抗震设计方法,通过大型振动台模型试验,研究曲线桥梁考虑支座摩擦滑移时的隔震机理。试验结果表明:支座摩擦滑移可有效减小地震作用下曲线桥梁的桥墩加速度响应,但同时会增加桥墩与梁体间的相对位移;曲线桥梁进行隔震设计后,桥墩的应变响应明显减小,证明该设计方法可有效避免地震作用下桥墩底部产生较大的损伤;最后,探讨了考虑支座摩擦滑移时曲线桥梁的隔震机理并与震害进行了对比验证。研究成果可为曲线桥梁的减震隔设计提供新的视角。 相似文献
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不同约束方式对匝道桥动力特性的影响研究 总被引:1,自引:0,他引:1
近年来,地震作用下的匝道桥表现出较高的地震易损性。为建立匝道桥的有效约束方式,以减小其地震损伤,本文基于汶川地震中连续梁桥约束方式的调研结果,建立了4种不同匝道桥支座约束方式,并以石家庄石环线某匝道桥为例,对比分析了不同约束方式下匝道桥的自振特性及地震响应。结果表明:板式橡胶支座具有一定的剪切变形能力,可降低桥墩与支座组成的体系刚度,有效分散了上部结构的地震惯性力,保护了下部结构,但应注意其引起的较大主梁位移;固定支座或墩梁固结形式会放大桥墩受力,增加下部结构的损坏,不宜设置在高度较矮、刚度较大的桥墩上;双层挡块和垫石凹槽分级限位支座具有较好的限位能力,并可耗散部分地震能量。 相似文献
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《地震工程与工程振动》2020,(3)
刚构桥主梁设计时一般不考虑地震荷载,因主梁与桥墩为固结形式,实际上主梁会参与承担水平和竖向地震作用。2008年汶川地震中百米高墩的庙子坪大桥主桥为3跨连续刚构桥,出现了箱梁严重开裂等震害。为研究高墩大跨刚构桥箱梁开裂及其地震反应情况,以包括庙子坪大桥主桥在内的3座不同墩高、不同跨径的刚构桥为例,建立从施工阶段到最终成桥全过程分析模型,输入汶川地震等强震记录,接续主梁初始应力进行时程分析。结果表明:在强地震下边跨和中跨合龙段区域处顶板、底板拉压应力较大,边跨1/5~2/5区域及跨中1/4~3/4区域处腹板的主拉、主压应力也较高,局部区域已超出混凝土抗拉强度标准值,易于开裂。墩高对刚构桥的主梁的应力影响最大,跨度其次,主墩越高,跨度越大,主梁的(主)拉、(主)压应力越大。主梁开裂发生时,支座存在破坏可能,桥墩墩底也易开裂及可能屈服,这些与庙子坪大桥主桥震害情况相符。 相似文献
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为了提高中小跨径简支梁桥的抗震能力,促进多级抗震设计思想的完善,以汶川地震中的寿江大桥为背景,构建了支座-挡块-桥墩相互作用分析模型,采用增量动力分析(IDA)方法,以挡块强度和墩高作为变化参数,研究了支座滑移、挡块限位和桥墩塑性三者之间抗震性能状态的耦合关系。研究表明:提高挡块强度可有效地控制支座的滑移,但会增大桥墩的曲率延性系数,且桥墩越矮,曲率延性系数增长越快;随着挡块强度的变化,支座滑移比的变化幅度明显大于桥墩曲率延性系数;随着墩高的增大,挡块的相对限位能力会提高;对于中小跨径简支梁桥而言,理想的抗震状态为:允许挡块破坏,使得支座出现小幅滑移,桥墩出现可修复的塑性损伤。因此,在挡块设计中,可优先考虑支座的限位效果,再综合考虑桥墩的地震响应,当桥墩为矮墩时,挡块的设计强度不可过大。 相似文献
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《地震工程与工程振动》2015,(4)
针对我国中小跨径混凝土连续梁桥的4种传统支座布置以及目前常用的5种新型支座布置形式,以一典型四跨连续梁桥为例,分别建立有限元模型并输入7组近场实测地震动,然后进行非线性动力分析。研究了在近场强震作用下不同的支座布置形式对主梁位移、支座和桥墩变形的影响,探讨了各类传统支座布置形式存在的问题,以及新型支座布置形式在改善桥梁抗震性能方面的优势。分析结果表明,近场强震作用下传统支座布置形式难以同时保证梁体位移和桥墩受力的合理性,尽管直接搁置的板式橡胶支座能大大减小桥墩受力,但在近场脉冲激励下会导致主梁产生不可恢复的滑移;采用铅芯橡胶支座的新型支座布置形式能有效协调梁体位移和桥墩受力,减小桥梁整体的破坏概率。 相似文献
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《地震工程与工程振动》2015,(3)
为研究横桥向地震作用下板式橡胶支座对桥梁抗震性能的影响,比较了传统延性抗震设计方法与考虑支座摩擦滑移抗震设计方法的差异,采用Open Sees软件建立桥梁有限元模型,对一简支变连续梁桥进行了非线性增量时程分析,对比研究桥梁支座、挡块和桥墩的受力性能,并根据延性系数对桥梁各构件的损伤顺序进行了分析。研究结果表明:按传统延性体系设计时,桥梁破坏首先从墩底开始,在大震作用下会造成墩底发生严重损伤;考虑支座摩擦滑移时,桥梁损伤首先是支座和挡块的破坏,然后是墩柱发生损伤,支座摩擦滑移后可大大减小传递到下部结构的地震力,大震下桥墩保持弹性或只发生轻微损伤,建议桥梁抗震设计时采用考虑支座摩擦滑移的抗震设计方法。 相似文献
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Damage investigation of small to medium-span highway bridges in Wenchuan earthquake revealed that typical damage of these bridges included: sliding between laminated-rubber bearings and bridge girders, concrete shear keys failure, excessive girder displacements and even span collapse. However, the bearing sliding could actually act as a seismic isolation for piers, and hence, damage to piers for these bridges was minor during the earthquake. Based on this concept, an innovative solation system for highway bridges with laminated-rubber bearings is developed. The system is comprised of typical laminated-rubber bearings and steel dampers. Bearing sliding is allowed during an earthquake to limit the seismic forces transmitting to piers, and steel dampers are applied to restrict the bearing displacements through hysteretic energy dissipation. As a major part of this research, a quarter-scale, two-span bridge model was constructed and tested on the shake tables to evaluate the performance of this isolation system. The bridge model was subjected to a Northridge and an artificial ground motion in transverse direction. Moreover, numerical analyses were conducted to investigate the seismic performance of the bridge model. Besides the test bridge model, a benchmark model with the superstructure fixed to the substructure in transverse direction was also included in the numerical analyses. Both the experimental and the numerical results showed high effectiveness of this proposed isolation system in the bridge model. The system was found to effectively control the pier-girder relative displacements, and simultaneously, protect the piers from severe damage. Numerical analyses also validated that the existing finite element methods are adequate to estimate the seismic response of bridges with this isolation system. 相似文献
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Unseating of bridge girders/decks during earthquakes is very harmful to the safety and serviceability of bridges. Evidence from recent severe earthquakes indicates that in addition to damage along longitudinal direction, lateral displacement and rotation of bridge girders caused by pounding to adjacent girders can also lead to unseating. To simulate this effect, 3D modelling of the dynamic performance of whole bridge structures, including pounding, is needed strongly. This paper presents a 3D model that is practically suitable to precisely analyse pounding between bridge girders. Experiments have been conducted to verify the proposed pounding model. The 3D non‐linear modelling of steel elevated bridges is also discussed. A general‐purpose dynamic analysis program for bridges, namely dynamic analysis of bridge systems (DABS) has been developed. Seismic analyses on a chosen three‐span steel bridge are conducted for several cases including pounding as a case study. The applicability of the proposed pounding model is illustrated by the computations. The effects of poundings on the response of bridge girders are discussed and the computation results are given. Copyright © 2002 John Wiley & Sons, Ltd. 相似文献
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针对非规则人字形桥梁在地震作用下灾变严重的问题,以一座非规则人字形桥梁为研究对象,建立其空间分析模型,研究综合考虑支座摩擦滑移、结构碰撞对非规则人字形桥梁地震响应的影响。结果表明:邻梁间的碰撞作用可使得桥梁墩顶位移及内力相比不考虑时有所减小,但同时也使梁体产生了较大的加速度脉冲效应;当考虑支座摩擦滑移和结构碰撞时,固定墩墩顶位移和邻梁相对位移峰值有一定程度增大,然而对梁体加速度脉冲效应结果影响并无统一规律;纵向地震波作用下,非规则人字形桥梁不仅存在顺桥向的碰撞,横桥向的碰撞响应也不容忽视。非规则人字形桥梁进行抗震设计计算时应选取符合实际情况的计算模型,考虑支座摩擦滑移及结构间的碰撞。 相似文献
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高墩梁桥的地震冲撞效应及其应对策略初探 总被引:1,自引:0,他引:1
国内外多次地震表明了高墩桥梁的地震冲撞破坏现象,针对目前国内大量兴建的高墩梁桥,有必要研究高墩梁桥地震冲撞效应和减轻桥梁地震冲撞破坏的应对策略。本文根据高烈度震区的1座高墩梁桥建立全桥的空间有限元模型,并在墩-梁结合部伸缩缝处采用非线性接触单元模拟相邻梁间的冲撞行为,同时考虑了下部支座的影响;考虑不同的强震动输入,采用非线性时程分析方法,研究了高墩梁桥的地震冲撞效应及减轻冲撞的有效措施。研究结果表明:本文采用的冲撞力学模型能够合理地模拟地震作用下结构的冲撞现象;冲撞行为对结构的地震反应影响复杂;地震动特性对冲撞效应影响显著;调整伸缩逢宽度或设置弹簧-阻尼限位装置可有效缓解结构间的冲撞效应。 相似文献
16.
Damage investigation of girder bridges under the Wenchuan earthquake and corresponding seismic design recommendations 总被引:9,自引:3,他引:6
An investigation of girder bridges on National Highway 213 and the Doujiangyan-Wenchuan expressway after the Wenchuan earthquake showed that typical types of damage included: span collapses due to unseating at expansion joints; shear key failure; and damage of the expansion joint due to the slide-induced large relative displacement between the bottom of the girder and the top of the laminated-rubber bearing. This slide, however, can actually act as a form of isolation for the substructure, and as a result, the piers and foundation of most of the bridges on state route 213 suffered minor damage. The exception was the Baihua Bridge, which suffered severe damage. Corresponding seismic design recommendations are presented based on this investigation. 相似文献
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Fragility curves express the probability of structural damage due to earthquakes as a function of ground motion indices, e.g., PGA, PGV. Based on the actual damage data of highway bridges from the 1995 Hyogoken‐Nanbu (Kobe) earthquake, a set of empirical fragility curves was constructed. However, the type of structure, structural performance (static and dynamic) and variation of input ground motion were not considered to construct the empirical fragility curves. In this study, an analytical approach was adopted to construct fragility curves for highway bridge piers of specific bridges. A typical bridge structure was considered and its piers were designed according to the seismic design codes in Japan. Using the strong motion records from Japan and the United States, non‐linear dynamic response analyses were performed, and the damage indices for the bridge piers were obtained. Using the damage indices and ground motion indices, fragility curves for the bridge piers were constructed assuming a lognormal distribution. The analytical fragility curves were compared with the empirical ones. The proposed approach may be used in constructing the fragility curves for highway bridge structures. Copyright © 2001 John Wiley & Sons, Ltd. 相似文献
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Ioannis F. Moschonas Andreas J. Kappos Panagiotis Panetsos Vissarion Papadopoulos Triantafyllos Makarios Pavlos Thanopoulos 《Bulletin of Earthquake Engineering》2009,7(2):439-468
This study focusses on the estimation of seismic fragility curves for all common bridge types found in modern greek motorways.
At first a classification scheme is developed in order to classify the existing bridges into a sufficient number of classes.
A total of 11 representative bridge classes resulted, based on the type of piers, deck, and pier-to-deck connection. Then
an analytical methodology for deriving fragility curves is proposed and applied to the representative bridge models. This
procedure is based on pushover analysis of the entire bridge and definition of damage states in terms of parameters of the
bridge pushover curves. The procedure differentiates the way of defining damage according to the seismic energy dissipation
mechanism in each bridge, i.e. bridges with yielding piers of the column type and bridges with bearings (with or without seismic
links) and non-yielding piers of the wall type. The activation of the abutment-backfill system due to closure of the gap between
the deck and the abutments is also taken into account. The derived fragility curves are subjected to a first calibration against
empirical curves based on damage data from the US and Japan. 相似文献
19.
Effect of torsional stiffness of prestressed concrete box girders and uplift of abutment bearings on seismic performance of bridges 总被引:1,自引:1,他引:0
Christos P. Katsaras Telemachos B. Panagiotakos Basil Kolias 《Bulletin of Earthquake Engineering》2009,7(2):363-375
Uplift of certain abutment bearings during earthquake may be utilized as a safety mechanism for the protection of the bridge
against excessive stress. For this reason design codes such as Eurocode 8 permit the uplift of such bearings under certain
conditions. Uplift of an abutment bearing occurs when the torque at the deck end exceeds a critical value. Therefore the torsional
stiffness of the deck, before or after concrete cracking, is an important factor. In this work realistic values for the cracked
torsional stiffness of the bridge deck are estimated from a parametric study of typical thin-walled prestressed box girders,
based on non-linear analysis of softened space truss models proposed in the literature. Moreover the interaction between bearing
uplift and pier flexural response is investigated and recommendations for the seismic design of bridges are proposed, taking
into account the possibility of uplift of abutment bearings before or after yielding of the piers. 相似文献