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汶川大地震公路桥梁震害初步调查 总被引:17,自引:4,他引:13
2008年5月12日我国四川省汶川县发生8级大地震,造成大量公路桥梁破坏。本文详细介绍了百花大桥、小鱼洞大桥、庙子坪大桥、龙尾大桥等9座典型公路桥梁的震害情况及原因。这个地区的桥梁主要为桥面连续简支梁桥,支座多为直接搁置的板式橡胶支座,地震中稳定性较差,主梁与桥墩连接较为薄弱,更多地发生横、纵向移位,乃至最终落梁。这种薄弱连接一定程度上降低了桥墩的地震荷载,总体上看桥墩震害较轻,但从破坏的桥墩、拱肋、盖梁来看,直接剪切或形成弯曲塑性铰后的剪切破坏较为多见。提出了公路桥梁抗震设计若干建议,涉及桥台抗震稳定性及强度校核、曲线梁桥和高墩桥梁设计、支座及防落梁措施设计、桥墩及构件延性设计、场地液化等多个方面。强调了抗震构造措施能够维持公路桥梁大震后应急通行功能的"最强设计原则"。 相似文献
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为客观预测在役公路梁式桥综合震害状况,考虑在役桥梁在运营期存在的病害问题,从压力和承压两方面建立在役公路梁式桥综合震害预测评价指标体系。以桥梁作为承灾体,建立在役公路梁式桥综合震害物元可拓模型,运用熵权法进行赋权,确定桥梁的综合震害状况。以一座在役梁式桥为例,运用上述模型确定算例的综合震害状况。研究结果表明,该桥的综合震害等级为Ⅲ级,破坏等级中等,且根据结果分析影响桥梁震害程度的主要影响因素;该模型通过对多个指标关联系数的综合分析来评价在役梁式桥的综合震害等级,极大地提高了该模型评估的准确率及可靠性,为桥梁震害等级的预测提供一定的参考,对提升桥梁综合抗震能力具有积极意义。 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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曲线桥梁在役期间可能面临地震灾害,导致结构损坏甚至坍塌,为了评估在役桥梁的抗震性能,提出基于损伤分析的曲线梁桥抗震性能评估方法。建立旧曲线梁桥有限元模型,基于损伤分析的原理,提出适合曲线梁桥地震响应特性的构件损伤模型,在全桥有限元模型中输入不同类型地震动,计算各构件的损伤指数,并结合旧桥检算系数,由各构件损伤指数综合得到桥梁的整体损伤指数。结果表明:不同地震动下主梁会发生碰撞破坏,桥梁两端的支座容易发生移位,桥墩沿横桥向或顺桥向均会产生位移;不同地震动对主梁、支座、桥墩等构件造成的损害程度有较大差异,各构件的地震响应会影响桥梁整体结构的抗震性能,其中桥墩对桥梁整体抗震性能的影响最大,桥墩位移超过极限值可能导致倒塌;主梁反复碰撞会加剧桥梁的破坏程度,桥梁两端支座在地震作用下更容易发生损坏。 相似文献
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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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汶川大地震简支梁桥落梁震害与设计对策 总被引:2,自引:0,他引:2
总结了5.12汶川大地震中简支梁桥落梁震害及主要影响因素,发现除地震山体滑坡等地质灾害外,断层地表破裂、近断层地震动效应、桥台胸墙冲切破坏、防落梁构造措施单一及桥梁体型复杂等因素都是引起简支梁桥落梁震害的重要原因。提出了简支梁桥防落梁设计的基本理念及相关技术方案要点为允许墩梁间发生滑移,以降低桥墩承受的地震惯性力,以及盖梁提供允许的最大滑移长度及支座支承宽度,再辅助挡块或拉索限位器等共同防止落梁发生。最后结合现行规范,以拉索限位器为例给出了简支梁桥防落梁设计方法。 相似文献
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The development of an expansion double spherical seismic isolation (DSSI) bearing by modifying the fixed DSSI bearing is described in this paper.The expansion DSSI bearing is characterized by its good ... 相似文献
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Evgueni T. Filipov Jessica R. Revell Larry A. Fahnestock James M. LaFave Jerome F. Hajjar Douglas A. Foutch Joshua S. Steelman 《地震工程与结构动力学》2013,42(9):1375-1394
Modern highway bridges in Illinois are often installed with economical elastomeric bearings that allow for thermal movement of the superstructure, and steel fixed bearings and transverse retainers that prevent excessive movement from service‐level loadings. In the event of an earthquake, the bearing system has the potential to provide a quasi‐isolated response where failure of sacrificial elements and sliding of the bearings can cause a period elongation and reduce or cap the force demands on the substructure. A computational model that has been calibrated for the expected nonlinear behaviors is used to carry out a parametric study to evaluate quasi‐isolated bridge behavior. The study investigates different superstructure types, substructure types, substructure heights, foundation types, and elastomeric bearing types. Overall, only a few bridge variants were noted to unseat for design‐level seismic input in the New Madrid Seismic Zone, indicating that most structures in Illinois would not experience severe damage during their typical design life. However, Type II bearing systems, which consist of an elastomeric bearing and a flat PTFE slider, would in some cases result in critical damage from unseating at moderate and high seismic input. The sequence of damage for many bridge cases indicates yielding of piers at low‐level seismic input. This is caused by the high strength of the fixed bearing element, which justifies further calibration of the quasi‐isolation design approach. Finally, the type of ground motion, pier height, and bearing type were noted to have significant influence on the global bridge response. Copyright © 2013 John Wiley & Sons, Ltd. 相似文献
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2021年5月22日青海玛多发生了M7.4级地震,造成了共和至玉树高速公路部分损毁。首先,基于地震现场考察及资料查阅,介绍了该条公路在此次地震中主要的震害类型及总体的震害情况;其次,统计分析了共玉高速上桥梁震害情况与结构形式等的关系。发现此次地震大桥震害远比中小桥要严重,简支空心板梁桥震害要比连续箱梁严重。鉴于此次地震在极震区缺少强震记录,本文提出一种基于衰减关系和台站土层条件的推测地震动简化方法,从地震动特征角度分析玛多地震对共玉高速破坏机理。最后讨论了此次地震对我国高原地区交通结构抗震的经验与启示。 相似文献
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Laminated elastomeric bearings have been widely used for small-to-medium-span highway bridges in China, in which concrete shear keys are set transversely to prohibit large girder displacement. To evaluate bridge seismic responses more accurately, proper analytical models of bearings and shear keys should be developed. Based on a series of cyclic loading experiments and analyses, rational analytical models of laminated elastomeric bearings and shear keys, which can consider mechanical degradation, were developed. The effect of the mechanical degradation was investigated by examining the seismic response of a small-to-medium-span bridge in the transverse direction under a wide range of peak ground accelerations (PGA). The damage mechanism for small-to-medium-span highway bridges was determined, which can explain the seismic damage investigation during earthquakes in recent years. The experimental results show that the mechanical properties of laminated elastomeric bearings will degrade due to friction sliding, but the degree of decrease is dependent upon the influencing parameters. It can be concluded that the mechanical degradation of laminated elastomeric bearings and shear keys play an important role in the seismic response of bridges. The degradation of mechanical properties of laminated elastomeric bearings and shear keys should be included to evaluate more precise bridge seismic performance. 相似文献
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以汶川地震中拱式体系桥梁震害为主线,总结主拱圈、横向连接系和其它附属构件及减隔震设计拱桥的破坏情况,对国内外拱桥的震害特征及原因进行了剖析。以目前应用数量占优的钢管混凝土肋拱桥为具体背景,对拱式体系桥梁的抗震理论、抗震试验和减隔震设计进行了评述。分析认为拱式体系桥梁竖向和纵桥向抗震存在一定的安全储备,但横桥向存在明显的抗震薄弱环节。针对钢管混凝土肋拱桥横桥向振动及倒塌特点,就目前在拱式体系桥梁中引入防屈曲支撑代替横撑以形成耗能减震结构提出了建议及具体可行设计方式。 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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为研究不同设计参数对曲线梁桥地震响应的影响以指导结构抗震设计,对不同支承约束曲线梁桥地震响应及地震需求敏感性进行分析。采用增量动力分析(IDA)方法对比分析了不同支承约束曲线梁桥的结构地震响应变化趋势;采用Tornado图形法对不同结构参数影响程度进行了排序,找出了对结构地震需求影响显著的参数。结果表明:采用板式橡胶支座桥梁因支座易发生滑移而导致上部结构位移较大,但降低了下部结构响应,设置固定墩后,下部结构损伤显著增加;对于采用板式橡胶支座和铅芯橡胶支座的曲线梁桥,墩高及跨径对墩底曲率需求影响较大,而对于固定墩为墩梁固结形式和采用盆式橡胶支座的曲线梁桥,跨径及跨数对墩底曲率需求影响较大;对于采用不同支承约束的曲线梁桥,墩高和曲率半径对桥台位移需求影响较大,仅次于地震动参数PGA。 相似文献
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以某高速铁路线上一座连续梁桥为例,运用模糊综合评判法,结合基于位移的支座损伤分析和截面曲率的桥墩损伤分析,以全概率理论地震损失模型为基础,提出了基于模糊理论的桥梁系统地震经济风险评估方法。结果表明:综合考虑桥梁系统的模糊地震经济风险分析方法能更全面地计算出连续梁桥在地震作用下的经济损失,仅以桥墩构件代表全桥所得地震经济损失误差较大。基于模糊理论的年预期损失风险框架方法通过结构抗震性能的概率特征可对高速铁路连续梁桥的地震直接经济风险进行全面评估,为该类桥梁的抗震设计、维修加固和灾后重建等方案做出合理评价。 相似文献
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辽西地震重点监视区桥梁震害预测 总被引:1,自引:0,他引:1
采用统计回归方法,对辽西地震重点监视防御区内4条国家级公路的桥梁133座、4次国有铁路的桥梁331座,以桥梁震害等级划分原则,求取其震害指数、判定震害等级。 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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国内外延性抗震设计的比较 总被引:7,自引:0,他引:7
1971年美国发生圣.费尔南多地震,许多新建的桥梁结构遭到严重破坏之后,延性抗震得到重视,抗震设计方法正在从传统的单一强度理论向延性抗震理论过渡。目前,大多数国家的桥梁抗震设计规范已经采纳了延性抗震理论。本文针对几个主要的抗震设计规范,包括EC8、Caltrans、AASHTO、日本和我国公路桥梁抗震设计规范中的延性抗震设计做一个概述。主要内容有延性指标的定义及其计算方法和延性构件钢筋锚固和搭接长度的规定,本文对我国公路桥梁的延性抗震设计有一定的参考价值。 相似文献
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在地震作用下中小跨径梁桥横向易出现落梁以及桥墩破坏。为了防止桥梁出现上述震害,提出以楔形挡块作为限位装置来提升桥梁的横向抗震性能。以一座3×20 m连续混凝土梁桥为例,通过OpenSees软件来建立有限元模型,在考虑板式橡胶支座的摩擦滑移效应、钢筋混凝土桥墩的非线性等力学效应的情况下,对其进行动力时程分析。引入主梁位移响应、桥墩顶部最大位移响应等作为指标,用柔性挡块、刚性挡块两种工况来与楔形挡块进行对比分析,并且分析楔形挡块不同角度对位移响应的影响。结果表明:楔形挡块角度设置合适时能够有效约束梁体位移响应,并且不显著提高桥墩顶部的位移响应。 相似文献