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装配式预应力混凝土双柱桥墩抗震性能研究进展 总被引:4,自引:0,他引:4
装配式预应力混凝土双柱桥墩是一种在上世纪铁路桥梁中广泛应用的一种桥墩形式.随着城市高架、跨海大桥、高速铁路等工程的不断新建,需要继续采用这种具有突出优点的桥墩方案.但是对于装配式双柱墩的设计及其抗震性能,目前仍然缺乏系统的研究.这已成为困扰桥梁设计工程师和业主的技术难题,从而限制了装配式双柱墩在我国桥梁建设中的应用.为了解决此技术难题,本文对目前的研究现状进行了剖析,并对进一步的研究思路和研究内容进行了详细分析.在此基础上进行的研究将为装配式双柱墩在我国的推广应用提供可靠的基础研究资料. 相似文献
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为提升预制节段拼装桥墩的抗震性能,采用碳纤维增强复合材料(CFRP)对预制节段拼装桥墩在地震中易损伤部位进行加固。基于既有试验,建立缩尺的预制节段拼装桥墩三维实体有限元模型,分析预制节段拼装桥墩在循环往复荷载情况下的恢复力特性以及破坏情况。分别采用箍筋加密和外包CFRP布对预制节段拼装桥墩底部节段进行加固,对比两种加固方式对预制节段拼装桥墩抗震性能的影响。研究结果表明,CFRP包裹桥墩底部节段能够增强桥墩整体刚度和承载能力,并且使得桥墩的刚度退化更加平缓,有利于预制节段拼装桥墩在地震作用下保持自身力学特性的稳定,确保桥梁整体的安全。 相似文献
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为适应施工期短的严/高寒地区和近海铁路桥梁工程发展,提高铁路桥梁工程的施工效率和工程质量.文中提出了一种用于铁路桥梁工程中的模块化预制拼装实心桥墩,该桥墩不仅可以纵向节段连接,还可以通过多个可互连的模块水平连接.基于ABAQUS程序,开展了铁路桥梁模块化预制拼装桥墩在单调、往复荷载作用下力学性能数值分析,对该桥墩的承载... 相似文献
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混凝土的数值计算模型在滞回性能分析中往往比较难收敛,利用有限元软件ADINA提供Drucker-Prager模型的Cap修正屈服准则确立的非协调参数Drucker-Prager模型对预应力节段拼装混凝土桥墩进行数值分析,对预应力节段拼装桥墩在低周往复荷载作用下的滞回性能进行分析。通过比较采用非协调参数Drucker-Prager模型建立的数值模型计算得到的滞回曲线与试验得到的结果,两者吻合程度较高。基于这一成果可以通过数值模拟的方式获得预应力节段拼装桥墩的滞回曲线与相关数据,可应用于预应力节段拼装桥墩抗震计算和设计。 相似文献
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为了解决现有预制桥墩施工难度大、腐蚀风险高、震后可恢复性能不足的问题,基于承插式桥墩与多节段桥墩的技术优点,提出了一种新型自复位承插式多节段预制桥墩(RSSPP),使用了高耐久性的BFRP筋和2304不锈钢钢筋,既能够充分发挥承插式节点连接可靠、现场施工简单、容许误差大的特点,同时具备良好的自复位功能。将新型RSSPP桥墩体系分为节段承重部分、后张预应力部分和耗能钢筋部分,从抗弯性能、抗剪性能、抗开合与抗倾覆性能的角度分析了桥墩力学性能,提出了承载力的简化计算方法,将理论计算与数值模拟进行对比,结果表明:数据吻合较好,验证了理论分析过程的合理性,并进一步提出了RSSPP桥墩耗能钢筋和预应力筋配筋计算公式。 相似文献
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预应力节段拼装桥墩在地震作用下具有良好的自复位能力,而既有的损伤模型无法准确评估预应力节段桥墩的地震损伤。鉴于此,有必要研究预应力节段拼装桥墩的地震损伤模型。从预应力节段桥墩的自复位特点和损伤机理出发,对自复位性能表征方法进行简化,提出采用自复位修正因子来对桥墩在地震作用下的累积耗能进行修正,从而获得考虑桥墩自复位性能的地震损伤评估模型。在此基础上,划分预应力节段拼装桥墩的损伤状态,最后验证该地震损伤模型及损伤分级方法的适用性。结果表明:预应力节段桥墩的自复位性能与耗能损伤之间呈现明显的相关性,考虑桥墩自复位的地震损伤模型和分级方法适用于不同的预应力节段拼装桥墩,为定量评估预应力节段拼装桥墩在地震作用下的损伤程度打下基础。 相似文献
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钢管混凝土桥墩抗震性能试验研究 总被引:1,自引:0,他引:1
为研究钢管混凝土桥墩的抗震性能,对钢管混凝土桥墩和钢筋混凝土桥墩进行了拟静力对比试验研究。根据试件的破坏发展过程以及各试件的滞回曲线和骨架曲线,分析了其滞回性能、耗能能力、延性、强度退化及刚度退化等抗震性能。试验结果表明,钢管混凝土桥墩的抗震性能明显好于钢筋混凝土桥墩。在含钢率和轴力相同的情况下,钢管混凝土桥墩的滞回曲线比钢筋混凝土桥墩丰满得多,前者的耗能能力约为后者的4.46倍,钢管混凝土桥墩的延性大于钢筋混凝土桥墩;随着轴压比的增大,钢管混凝土桥墩延性有所下降,强度退化加快,但对其刚度退化的影响不大。 相似文献
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为克服利用OpenSEES进行预制拼装桥墩纤维模型分析时干接缝区域模拟困难的问题,提出一种由刚性单元、非线性梁柱单元、零长度单元配合ENT单压材料组成的干接缝单元。通过基于干接缝单元的纤维模型数值模拟结果与文献中的1:3.5缩尺桥墩拟静力试验结果对比发现:该干接缝单元不仅解决了墩身混凝土压溃带来的模型不收敛问题,而且考虑了墩身节段宽度对干接缝区域的影响,使预制拼装桥墩干接缝处的力学性能更接近实际的力学性能;数值模拟结果与试验结果吻合较好证明了该干接缝单元用于模拟预制拼装桥墩干接缝区域的可行性。在此基础上设置耗能钢筋、外包钢管和墩底橡胶支承垫层作为桥墩附加耗能装置,对预制拼装桥墩进行拟静力循环加载模拟,研究不同耗能装置对预制拼装桥墩的滞回能力、预应力筋内力、累积耗能、残余位移以及等效刚度等性能参数的影响。结果表明:设置耗能钢筋和外包钢管可以显著提高预制拼装桥墩的耗能能力、水平承载力和刚度,降低预应力损失;设置墩底橡胶支承垫层也能提高预制拼装桥墩的耗能能力,但会降低桥墩的水平承载力和刚度,应根据桥墩自身刚度谨慎选择橡胶垫层的刚度。 相似文献
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Past experimental studies have shown that existing precast segmental concrete bridge columns possess unsatisfactory hysteretic energy dissipation capacity, which is an undesirable feature for applications in seismic regions. In this research, we propose new methods of precast segment construction for tall concrete bridge columns to enhance the columns' hysteretic energy dissipation capacity and lateral strength. This is accomplished by adding bonded mild steel reinforcing bars across the segment joints, strengthening the joint at the base of the column and increasing the height of the base segment (hinge segment). Four large‐scale column specimens were fabricated and tested with lateral cyclic loading in the laboratory. Each specimen consisted of a foundation and 9 or 10 precast column segments. Test results of specimens with the proposed design concepts showed ductile behavior and satisfactory hysteretic energy dissipation capacity. In addition to the experimental study, an analytical study using the finite element method was conducted to understand the bond conditions, strain contours and deformation patterns of the specimens tested. Good agreement was found between the experimental observations and the results of the calibrated analytical study. Copyright © 2008 John Wiley & Sons, Ltd. 相似文献
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Two ungrouted post‐tensioned, precast concrete‐filled tube (CFT) segmental bridge columns were tested under lateral cyclic loading to evaluate the seismic performance of the column details. The specimens included a load stub, four equal‐height circular CFT segments, and a footing. Strands were placed through the column and post‐tensioned to provide a precompression of the column against the footing. One specimen also contained energy‐dissipating devices at the base to increase the hysteretic energy. The test results showed that (1) both specimens could develop the maximum flexural strength at the design drift and achieve 6% drift with small strength degradation and residual displacement, (2) the proposed energy‐dissipating device could increase energy dissipation in the hysteresis loops, and (3) the CFT segmental columns rotated not only about the base but also about the interface above the bottom segment. This study proposed and verified a method to estimate the experimental flexural displacement using two plastic hinges in the segmental column. Copyright © 2005 John Wiley & Sons, Ltd. 相似文献
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The cyclic behavior of precast segmental concrete bridge columns with high performance (HP) steel reinforcing bars and that with conventional steel reinforcing bars as energy dissipation (ED) bars were investigated. The HP steel reinforcing bars are characterized by higher strength, greater ductility, and superior corrosion resistance compared with the conventional steel reinforcing bars. Three large‐scale columns were tested. One was designed with the HP ED bars and two with the conventional ED bars. The HP ED bars were fully bonded to the concrete. The conventional ED bars were fully bonded to the concrete for one column, whereas unbonded for a length to delay fracture of the bars and to increase energy dissipation for the other column. Test results showed that the column with the HP ED bars had greater drift capacity, higher lateral strength, and larger energy dissipation than that with fully bonded conventional ED bars. The column with unbonded conventional ED bars achieved the same drift capacity and similar energy dissipation capacity as that with the HP ED bars. All the three columns showed good self‐centering capability with residual drifts not greater than 0.4% drift. An analytical model referred to as joint bar‐slip rotation method for pushover analysis of segmental columns with ED bars is proposed. The model calculates joint rotation from the slip of the ED bars from two sides of the joint. Good agreement was found between analytical predictions and the envelope responses of the three columns. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
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能力谱方法在桥梁抗震性能评估中的应用研究 总被引:1,自引:0,他引:1
位移延性是桥梁抗震性能的重要指标之一,以Pushover分析为基础的能力谱方法能够考察结构在地震下的弹塑性位移响应,是抗震性能评估的一种有效手段.文中阐述了能力谱法的基本原理,说明了基于弹塑性反应谱的能力谱方法在求解性能点时不需要进行迭代计算;基于弹性设计反应谱建立了相对应的弹塑性反应谱,结合某实桥,将能力谱方法和增量动力分析方法进行了对比,并根据不同的地震基本烈度和场地土类型进行了抗震性能评估.分析认为,能力谱方法计算简便,对结构1阶振型的地震响应占主导时,具有较好的精度,并能够基于设计反应谱来考察结构的弹塑性抗震性能,可用于桥梁抗震性能的评估. 相似文献
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This paper presents general composed analytical models to predict the behavior of reinforced concrete (RC) bridge columns. The analytical models were developed in OpenSees to represent the common hysteretic behavior of RC bridge columns. The proposed composed models can accommodate flexure failure, flexure‐shear failure, and pure shear failure, which are observed in existing RC bridge piers. The accuracy of the models was verified using data from the static cyclic‐loading experiments of 16 single columns and one multi‐column bent and dynamical experiment from two pseudo‐dynamic tests. The results showed that the analytical models could simulate the nonlinear behavior until the post‐failure behavior, including the strength degradation, the buckling of the reinforcement, and the pinching effect. Therefore, a global view of the behavior of reinforcement concrete is prescribed as simply as possible from the academic perspective, and these models are expected to provide sufficient accuracy when applied in engineering practice. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
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本文按现行规范及技术规程设计了设防烈度为8度的一个规则的钢筋混凝土异形柱框架,并进行了单向水平地震作用下的空间三维非线性地震反应分析,考查了异形柱框架结构在设防和罕遇地震水准下的整体抗震性能,对结构能否达到抗震设防目标进行了初步评价。结果表明,8度区按规范设计的结构在设防烈度及罕遇烈度地震作用下基本能够达到预期的抗震设防目标。 相似文献