共查询到20条相似文献,搜索用时 31 毫秒
1.
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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Seismic retrofit of reinforced concrete frames using buckling‐restrained braces with bearing block load transfer mechanism 
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下载免费PDF全文 Kuan‐Yu Pan An‐Chien Wu Keh‐Chyuan Tsai Chao‐Hsien Li Hsen‐Han Khoo 《地震工程与结构动力学》2016,45(14):2303-2326
A new method of retrofitting reinforced concrete (RC) frames with buckling‐restrained braces (BRBs) to improve frame strength, stiffness and energy dissipation is proposed. Instead of typical post‐installed anchors, load is transferred between the BRB and RC frame through compression bearing between an installed steel frame connected to the BRB, and high‐strength mortar blocks constructed at the four corners of the RC frame. This avoids complex on‐site anchor installation, and does not limit the allowable brace force by the anchor strength. Cyclic displacements of increasing amplitudes were imposed on two RC frame specimens retrofitted with different BRB strength capacities. In one of the frames, the bearing blocks were reinforced with wire mesh to mitigate cracking. A third RC frame was also tested as a benchmark to evaluate the retrofit strength and stiffness enhancements. Test results indicate that the proposed method efficiently transferred loads between the BRBs and RC frames, increasing the frame lateral strength while achieving good ductility and energy‐dissipating capacity. When the bearing block was reinforced with wire mesh, the maximum frame lateral strength and stiffness were more than 2.2 and 3.5 times the RC frame without the BRB respectively. The BRB imposes additional shear demands through the bearing blocks to both ends of the RC beam and column member discontinuity regions (D‐regions). The softened strut‐and‐tie model satisfactorily estimated the shear capacities of the D‐regions. A simplified calculation and a detailed PISA3D analysis were shown to effectively predict member demands to within 13.8% difference of the measured test results. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献
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Design and full‐scale experimental evaluation of a seismically endurant steel buckling‐restrained brace system 下载免费PDF全文
下载免费PDF全文 This paper presents the results of 12 full‐scale tests on buckling‐restrained brace (BRB) specimens. A simple‐to‐fabricate all‐steel encasing joined by high‐strength bolts was used as the buckling‐restrainer mechanism. Steel BRBs offer significant energy dissipation capability through nondeteriorating inelastic response of an internal ductile core. However, seismic performance of BRBs is characterized by interaction between several factors. In this experimental study, the effects of core‐restrainer interfacial condition, gap size, loading history, bolt spacing, and restraining capacity are evaluated. A simple hinge detail is introduced at the brace ends to reduce the flexural demand on the framing components. Tested specimens with bare steel contact surfaces exhibited satisfactory performance under the American Institute of Steel Construction qualification test protocol. The BRBs with friction‐control self‐adhesive polymer liners and a graphite‐based dry lubricant displayed larger cumulative inelastic ductility under large‐amplitude cyclic loading, exceeding current code minimum requirements. The BRB system is also examined under repeated fast‐rate seismic deformation history. This system showed significant ductility capacity and remarkable endurance under dynamic loading. Furthermore, performance is qualified under long‐duration loading history from subduction zone's megathrust type of earthquake. Predictable and stable performance of the proposed hinge detail was confirmed by the test results. Internally imposed normal thrust on the restrainer is measured using series of instrumented bolts. Weak‐ and strong‐axis buckling responses of the core are examined. Higher post‐yield stiffness was achieved when the latter governed, which could be advantageous to the overall seismic response of braced frames incorporating BRBs. 相似文献
4.
Cyclic behavior and failure mechanism of self‐centering energy dissipation braces with pre‐pressed combination disc springs 下载免费PDF全文
下载免费PDF全文 A new type of bracing system composed of friction energy dissipation devices for energy dissipation, pre‐pressed combination disc springs for self‐centering and tube members as guiding elements is developed and experimentally studied in this paper. The mechanics of this system are explained, the equations governing its hysteretic responses are outlined and large‐scale validation tests of two braces with different types of disc springs are conducted under the condition of low cyclic reversed loading. The experimental results demonstrate that the proposed bracing system exhibits a stable and repeatable flag‐shaped hysteretic response with an excellent self‐centering capability and effective energy dissipation throughout the loading protocol. Furthermore, the maximum bearing force and stiffness are predicted well by the equations governing its mechanical behavior. Fatigue and destructive test results demonstrate that the proposed bracing system can maintain stable energy dissipation and self‐centering capabilities under large deformation cyclic loading even when the tube members exceed the elastic limit and that a larger bearing capacity is achieved by the system that has disc springs without a bearing surface. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献
5.
Hybrid experimental performance of a full‐scale two‐story buckling‐restrained braced RC frame 下载免费PDF全文
下载免费PDF全文 An‐Chien Wu Keh‐Chyuan Tsai Hsun‐Horng Yang Jie‐Luen Huang Chao‐Hsien Li Kung‐Juin Wang Hsen‐Han Khoo 《地震工程与结构动力学》2017,46(8):1223-1244
This paper proposes a novel implementation of buckling‐restrained braces (BRB) in new reinforced concrete (RC) frame construction. Seismic design and analysis methods for using a proposed steel cast‐in anchor bracket (CAB) to transfer normal and shear forces between the BRB and RC members are investigated. A full‐scale two‐story RC frame with BRBs (BRB‐RCF) is tested using hybrid and cyclic loading test procedures. The BRBs were arranged in a zigzag configuration and designed to resist 70% of the story shear. The gusset design incorporates the BRB axial and RCF actions, while the beam and column members comply with ACI 318‐14 seismic design provisions. Test results confirm that the BRBs enhanced the RCF stiffness, strength, and ductility. The hysteresis energy dissipation ratios in the four hybrid tests range from 60% to 94% in the two stories, indicating that BRBs can effectively dissipate seismic input energy. When the inter‐story drift ratio for both stories reached 3.5% in the cyclic loading test, the overall lateral force versus deformation response was still very stable. No failure of the proposed steel CABs and RC discontinuity regions was observed. This study demonstrates that the proposed design and construction methods for the CABs are effective and practical for real applications. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献
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The energy dissipation capacity of a structure is a very important index that indicates the structural performance in energy‐based seismic design. This index depends greatly on the structural components that form the whole system. Owing to the wide use of the strong‐column weak‐beam strength hierarchy where steel beams dissipate the majority of earthquake input energy to the structures, it is necessary to evaluate the energy dissipation capacity of the beams. Under cyclic loadings such as seismic effects, the damage of the beams accumulates. Therefore, loading history is known to be the most pivotal factor influencing the deformation capacity and energy dissipation capacity of the beams. Seismic loadings with significantly different characteristics are applied to structural beams during different types of earthquakes and there is no unique appropriate loading protocol that can represent all types of seismic loadings. This paper focuses on the effects of various loading histories on the deformation capacity and energy dissipation capacity of the beams. Cyclic loading tests of steel beams were performed. In addition, some experimental results from published tests were also collected to form a database. This database was used to evaluate the energy dissipation capacity of steel beams suffering from ductile fracture under various loading histories. Copyright © 2011 John Wiley & Sons, Ltd. 相似文献
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提出一种带可更换软钢阻尼器的低损伤自复预制混凝土(LDSCPC)框架节点,并针对该节点在地震作用下的抗震性能、更换阻尼器后的性能恢复等开展足尺试件的拟静力试验。在节点试验基础上,基于ABAQUS精细化有限元模型进行该节点关于螺栓预紧力、水平和竖向耗能条尺寸的参数化分析及优化设计。研究表明,软钢阻尼器LT12的滞回特性和承载能力是最优异的,而LT14是耗能最好的;增加阻尼器耗能条的尺寸和厚度能分别提高LDSCPC框架节点在加载早期和变形较大时的耗能性能。较大的螺栓预紧力能明显提升LDSCPC框架节点的耗能能力,当预紧力为155 kN时,软钢阻尼器几乎达到理想的耗能性能。 相似文献
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边缘约束构件对钢筋混凝土剪力墙抗震性能的影响 总被引:6,自引:1,他引:6
钢筋混凝土剪力墙是高层建筑中的主要抗侧力构件,边缘约束情况是影响剪力墙抗震性能的一个重要因素。为研究边缘约束构件对钢筋混凝土剪力墙抗震性能的影响,本文进行了三片边缘约束情况不同的钢筋混凝土剪力墙的低周反复试验,并对试验结果进行了分析,分析内容包括:破坏形态、水平承载力、位移延性系数、刚度退化、抗震耗能能力等方面。研究结果表明,合理地设置边缘约束能够扩大塑性破坏区域,提高试件的水平承载力,改善其抗震耗能性能。研究进一步发现,边缘纵筋配筋率在提高试件的水平承载力,改善其抗震耗能性能和刚度退化程度方面影响显著,而边缘配箍率对抗震性能的贡献在本次试验分析中表现得并不明显。 相似文献
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通过2根圆钢管普通混凝土柱与5根圆钢管钢渣混凝土柱在高轴压比下的水平低周反复加载试验,研究圆钢管钢渣混凝土柱的轴压比、钢管壁厚、钢渣砂替代率和长细比对其破坏形态、滞回耗能能力、骨架曲线、延性及耗能、刚度退化的影响规律。研究结果表明:钢渣混凝土试件破坏过程和破坏形态与普通混凝土试件基本相同,主要表现为钢管底部鼓曲的压弯破坏;所有试件滞回曲线饱满,无明显“捏缩”现象;高轴压比试件存在明显承载力突降现象,合理的径厚比(钢管直径/钢管壁厚)对高轴压比试件承载力突降有明显改善作用;低轴压比试件延性系数大于4.0,高轴压比试件延性系数介于1.57~3.76之间,轴压比增大,试件延性下降;试件破坏时等效粘滞阻尼系数ξeq介于0.259~0.437之间;建议采用《钢管混凝土混合结构技术标准》(GB/T51446-2021)或《钢管混凝土结构技术规程》(DBJ/T13-51-2010)计算地震作用下钢管钢渣混凝土柱压弯承载力,但高轴压比钢管钢渣混凝土柱计算结果需乘以折减系数0.8。 相似文献
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为推广装配式混凝土框架结构的应用,提出3种不同的新型装配式钢筋混凝土框架中节点连接形式,进行低周往复荷载试验。对比各试件的破坏形态、滞回性能、刚度退化、累积耗能和节点剪切变形等抗震指标。研究结果表明:采用方钢管连接的装配式混凝土节点呈现梁端弯曲破坏,采用工字钢连接或对拉螺栓连接的节点呈现节点核心区剪切破坏。采用方钢管的连接形式既能改善节点核心区的破坏形态,又能提高其承载能力、变形能力、耗能能力和梁端转动能力,同时显著改善节点的滞回特性,减小核心区的剪切变形。在弹塑性和塑性变形阶段,采用方钢管连接形式的装配式混凝土节点的抗震性能优于工字钢连接和对拉螺栓连接的节点。此外,采用工字钢连接形式比对拉螺栓连接形式的节点具有更高的承载能力、耗能能力和较小的核心区剪切变形。 相似文献
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为限制隔震层位移,研发了同时提供刚度和阻尼力的新型弹塑性软碰撞防护装置,该装置主要由铅芯橡胶支座、剪力键及中空连接钢板组成。首先对铅芯橡胶支座进行了设计压应力12MPa下基本性能试验及压应力0 MPa下剪切试验;然后进行了弹塑性软碰撞防护装置的水平力学性能测试试验,测定装置的屈服后刚度、屈服力及支座顶端转角,探讨了剪力键外圆面罩橡胶套对试验结果的影响,对比分析了装置的水平力学性能指标与支座在0MPa下剪切试验结果的差异;最后,对弹塑性软碰撞防护装置进行了数值模拟,对比了数值模拟与试验的水平力-位移滞回曲线。结果表明:弹塑性软碰撞防护装置可提供刚度及阻尼力,在剪力键外圆面罩上橡胶套后对试验结果基本无影响;与0MPa下支座测试结果相比较,装置的屈服后刚度及屈服力有所降低;支座顶端转角随支座剪应变的增大而增大;数值模拟与试验的滞回曲线吻合良好,该装置具有良好的滞回耗能能力。 相似文献
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Construction of seaside and underground wall bracing often uses stiffened deep cement mixed columns (SDCM). This research investigates methods used to improve the level of bearing capacity of these SDCM when subjected to cyclic lateral loading via various types of stiffer cores. Eight piles, two deep cement mixed piles and six stiffened deep cement mixing piles with three different types of cores, H shape cross section prestressed concrete, steel pipe, and H-beam steel, were embedded though soft clay into medium-hard clay on site in Thailand. Cyclic horizontal loading was gradually applied until pile failure and the hysteresis loops of lateral load vs. lateral deformation were recorded. The lateral carrying capacities of the SDCM piles with an H-beam steel core increased by 3-4 times that of the DCM piles. This field research clearly shows that using H-beam steel as a stiffer core for SDCM piles is the best method to improve its lateral carrying capacity, ductility and energy dissipation capacity. 相似文献
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Seismic performance evaluation of single damped‐outrigger system incorporating buckling‐restrained braces 下载免费PDF全文
下载免费PDF全文 The outrigger system is an effective means of controlling the seismic response of core‐tube type tall buildings by mobilizing the axial stiffness of the perimeter columns. This study investigates the damped‐outrigger, incorporating the buckling‐restrained brace (BRB) as energy dissipation device (BRB‐outrigger system). The building's seismic responses are expected to be effectively reduced because of the high BRB elastic stiffness during minor earthquakes and through the stable energy dissipation mechanism of the BRB during large earthquakes. The seismic behavior of the BRB‐outrigger system was investigated by performing a spectral analysis considering the equivalent damping to incorporate the effects of BRB inelastic deformation. Nonlinear response history analyses were performed to verify the spectral analysis results. The analytical models with building heights of 64, 128, and 256 m were utilized to investigate the optimal outrigger elevation and the relationships between the outrigger truss flexural stiffness, BRB axial stiffness, and perimeter column axial stiffness to achieve the minimum roof drift and acceleration responses. The method of determining the BRB yield deformation and its effect on overall seismic performance were also investigated. The study concludes with a design recommendation for the single BRB‐outrigger system. 相似文献
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Buckling‐restrained braces (BRBs) are widely used as ductile seismic‐resistant and energy‐dissipating structural members in seismic regions. Although BRBs are expected to exhibit stable hysteresis under cyclic axial loading, one of the key limit states is global flexural buckling, which can produce an undesirable response. Many prior studies have indicated the possibility of global buckling of a BRB before its core yields owing to connection failure. In this paper, BRB stability concepts are presented, including their bending‐moment transfer capacity at restrainer ends for various connection stiffness values with initial out‐of‐plane drifts, and a unified simple equation set for ensuring BRB stability is proposed. Moreover, a series of cyclic loading tests with initial out‐of‐plane drifts are conducted, and the results are compared with those of the proposed equations. © 2013 The Authors. Earthquake Engineering & Structural Dynamics published by John Wiley & Sons Ltd. 相似文献
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It is not common to purposely subject the web of wide‐flange or I‐sections to out‐of‐plane bending. However, yielding the web under this loading condition can be a stable source of energy dissipation as the transition at the corner from the web to the flanges is smooth and weld‐free; this prevents stress concentrations causing premature failure and eliminates uncertainties and imperfections associated with welding. Further, short segments of wide‐flange or I‐sections constitute a simple and inexpensive energy dissipating device as minimum manufacturing is required and leftovers not useful for other structural purposes can be re‐utilized. This paper proposes a new type of seismic damper in the form of braces based on yielding the web of short length segments of wide‐flange or I‐shaped steel sections under out‐of‐plane bending. The hysteretic behavior and ultimate energy dissipation capacity is investigated via component tests under cyclic loads. The experimental results indicate that the damping device has stable restoring force characteristics and a high energy dissipation capacity. Based on these results, a simple hysteretic model for predicting the load–displacement curve of the seismic damper is proposed, along with a procedure for predicting its ultimate energy dissipation capacity and anticipating its failure under arbitrarily applied cyclic loads. The procedure considers the influence of the loading path on the ultimate energy dissipation capacity. Finally, shaking table tests on half‐scale structures are conducted to further verify the feasibility and effectiveness of the new damper, and to assess the accuracy of the hysteretic model and the procedure for predicting its failure. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
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Effect of non‐moment braced frame seismic deformations on buckling‐restrained brace end connection behavior: Theoretical analysis and subassemblage tests 下载免费PDF全文
下载免费PDF全文 In‐plane buckling‐restrained brace (BRB) end rotation induced by frame action is a commonly observed phenomenon in buckling‐restrained braced frames (BRBFs). However, its effect on BRB end connection behavior has not yet been clear. In this study, four BRB end deformation modes for quick determination of end rotational demand are proposed for non‐moment BRBF considering different BRB arrangements, installing story of BRBs, and boundary condition of corner gussets connected with column base. Key factors affecting BRB end rotation and flexural moments are examined theoretically by parametric analysis. Subassemblage tests of seven BRB specimens under horizontal cyclic loading were conducted by adopting two loading frames to impose the expected BRB end deformations. It shows that BRB end rotation subjected BRB ends to significant flexural moments, leading to premature yielding of BRB ends or even tendency of end zone buckling. The deformation modes, the flexural rigidity of BRB ends, and the initial geometric imperfections of BRBs were found to have significant influence on BRB end connection behavior. The triggering moment induced by BRB end rotation was the main contributor to end flexural moment. However, the moment amplification effect induced by flexure of BRB end zones became prominent especially for small flexural rigidity of BRB ends. Implications and future research needs for design of BRB end connections are provided finally based on the theoretical and experimental results. Copyright © 2015 John Wiley & Sons, Ltd. 相似文献
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为研究装配式木柱与钢筋混凝土混合结构梁柱柔性节点的非线性力学性能,设计一种木柱与钢筋混凝土混合结构装配节点.利用 ABAQUS软件建立有限元模型,并对节点模型进行单调加载荷载分析和低周反复加载分析,主要研究橡胶硬度和竖向荷载对装配节点的破坏特征、滞回曲线、骨架曲线、承载力及耗能能力等非线性力学性能的影响,并与相关文献对比,验证分析方法的可行性.结果表明:该柔性节点的主要破坏模式有柱脚受压屈曲、受拉抬起现象和橡胶压缩变形破坏.柔性装配节点的承载力、刚度、延性与其阻尼材料的硬度二者呈正比关系.随着阻尼材料硬度提高,可以有效限制柱体侧倾和柱脚抬起现象.当采用71HA 硬度的橡胶材料时其耗能能力较好.同时,竖向荷载对装配节点的阻尼比影响较大,增加竖向荷载可以有效提高该节点的黏滞阻尼比. 相似文献
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提出了一种既有钢筋混凝土框架结构的抗震加固方法,该法采用防屈曲支撑提高框架结构体系的水平承载力和耗能能力,利用外包钢进一步提高柱子的抗弯和抗剪承载力。采用开源有限元程序OpenSees,分别建立空钢筋混凝土框架和防屈曲支撑加固钢筋混凝土框架的分析模型,对2榀钢筋混凝土框架的抗震性能进行模拟。防屈曲支撑采用了弹塑性桁架单元模型,加固框架柱混凝土考虑了外包钢的约束作用。将分析结果与拟静力试验结果进行比较,以检验分析模型的准确性,以及研究防屈曲支撑和外包钢对混凝土框架抗震性能的影响。分析结果表明,数值模拟与试验结果吻合较好,验证了基于OpenSees建立的数值模型的准确性;外包钢有效改善了框架柱的抗弯承载力和变形能力;防屈曲支撑显著提高了加固框架体系的水平刚度、水平承载力和耗能能力。 相似文献
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提出一种波纹钢管铅阻尼器,介绍了其构造、工作机理、布置形式及特点,采用ABAQUS软件,建立钢管阻尼器、波纹钢管阻尼器和波纹钢管铅阻尼器有限元模型,对其应力分布,传力路径和滞回性能进行模拟分析。结果表明:波纹钢管铅阻尼器耗能减震机理明确,工作性能和耗能性能稳定,滞回曲线饱满以及耗能能力强,具有良好的变形和延性,极限变形大;波纹钢管铅阻尼器通过在波纹钢管内设置铅芯使初始刚度、承载能力和耗能能力得到大幅度提高,既有效保持了波纹钢管的变形能力,又避免波纹钢管发生局部屈曲,使波纹钢管耗能能力得到充分发挥。波纹钢管铅阻尼器在1mm小位移下就可以进入耗能,而且很快进入稳定耗能状态,等效阻尼比稳定在0.3~0.4之间。 相似文献