带非对称摩擦连接的RCS梁柱节点抗震性能与构造参数研究

基于非对称摩擦连接(AFC)的耗能特点,提出了一种新型的钢筋混凝土柱-钢梁(RCS)梁柱节点,对3组采用AFC连接的RCS梁柱节点进行往复加载试验,考虑了螺栓预紧力、摩擦垫片材料等构造因素对节点抗震性能的影响.结果表明:3组带摩擦连接RCS试件均为梁铰机制破坏,满足“强节点,弱构件”的抗震设计要求;3组试件的滞回曲线具有明显的双平台耗能,滞回曲线饱满稳定,有利于实现两阶抗震设防目标;耐磨钢材料与黄铜材料的两组试件的承载力相近,滞回曲线特征相似,都具有良好的耗能能力;随着螺栓预紧力的增加,试件获得的承载力、刚度也随之大,耗能能力得到了提升,在实际应用中,可通过合理控制预紧力来满足预期所需的滑移荷载与耗能能力.

RC梁柱节点抗剪机理及承载力计算方法综述

对国内外关于框架结构中梁柱节点抗震性能研究成果进行总结归纳,分析了加载过程中节点的破坏形态及其抗剪机理,总结了典型的梁柱节点抗剪承载力计算模型,并基于各国规范对比了现有的抗剪承载力计算模型的适用性。对比了美国规范ACI 318-19、欧洲规范EC2的抗剪承载力计算的差异,指出了《混凝土结构设计规范》(GB 50010—2010)(2015年版)建议的梁柱节点抗剪承载力计算结果相对保守。建议适量增加节点核心区配箍率,从而提高钢筋与核心区混凝土的粘结性能,减少纵筋的粘结滑移现象。

UHPC-RC节段组合梁的抗弯性能分析

为研究低预应力度条件下,不同节段接缝的超高性能混凝土-钢筋混凝土(ultra-high performance concrete-reinforced concrete,UHPC-RC)组合梁的抗弯性能,文章基于ABAQUS有限元软件,建立UHPC-RC节段组合梁的基准有限元模型,并利用已有的试验数据验证该模型的合理性。节段接缝分别为平面干接缝、平面胶接缝、齿键干接缝和齿键胶接缝,在基准有限元模型的基础上,进一步研究节段接缝类型对组合梁抗弯性能的影响。研究发现,在四点受弯加载方式下,接缝的几何特征(平面或齿键)对组合梁的极限荷载和开裂荷载影响较小,环氧树脂胶的使用对组合梁的抗弯性能影响较大。

Pushover analysis of reinforced concrete frames considering shear failure at beam-column joints

Since most current seismic capacity evaluations of reinforced concrete （RC） frame structures are implemented by either static pushover analysis （PA） or dynamic time history analysis, with diverse settings of the plastic hinges （PHs） on such main structural components as columns, beams and walls, the complex behavior of shear failure at beam-column joints （BCJs） during major earthquakes is commonly neglected. This study proposes new nonlinear PA procedures that consider shear failure at BCJs and seek to assess the actual damage to RC structures. Based on the specifications of FEMA-356, a simplified joint model composed of two nonlinear cross struts placed diagonally over the location of the plastic hinge is established, allowing a sophisticated PA to be performed. To verify the validity of this method, the analytical results for the capacity curves and the failure mechanism derived from three different full-size RC frames are compared with the experimental measurements. By considering shear failure at BCJs, the proposed nonlinear analytical procedures can be used to estimate the structural behavior of RC frames, including seismic capacity and the progressive failure sequence of joints, in a precise and effective manner.

拼接缝对装配式RC结构节点抗震性能的影响

为研究拼接缝对装配式RC结构节点抗震性能的影响,提高结构抗震能力,设计并制作了6个节点试件,通过低周反复荷载试验测出节点的破坏形态和滞回曲线。在此基础上用ABAQUS有限元软件,分析拼接缝对不同类型节点抗震性能的影响和拼接缝在节点梁上的最优位置。结果表明:设置拼接缝对边节点的抗震性能影响大于中节点,拼接缝在梁上的位置变化对中节点的抗震性能影响大于边节点;相同工况下中节点峰值承载力比边节点高30%,破坏位置的位移比边节点大约32%,耗能能力显著强于边节点;节点梁上的拼接缝位置变化对节点承载力、刚度退化、延性、耗能能力存在影响;拼接缝在梁上的最优位置为拼接缝距核心区约2/9梁跨长,最不利位置为距核心区约1/3梁跨长,在实际工程中应尽量合理设置拼接缝位置;装配节点梁上的拼接缝随着距离节点核心区长度的增加,节点主裂缝的位置逐步由核心区梁端变成拼接缝界面处,破坏方式逐步由梁端弯曲破坏变为梁端剪切破坏。

梁端外包U形钢板RC梁-CFST柱穿筋节点抗震性能有限元分析

在钢筋混凝土(RC)梁-钢管混凝土(CFST)柱穿筋连接节点的梁端采用外包U形钢板+栓钉传递界面剪力,节点受力明确性能优越。本文通过建立低周往复荷载作用下U形钢板+栓钉连接的RC梁-CFST柱节点试件(SUJD)数值模拟模型,并在梁端损伤状况、滞回曲线模拟结果与试验结果吻合良好的基础上,进行了U形钢板长度L_(u)、U形钢板与混凝土间是否设置栓钉、RC梁配筋率ρ_(s)的变化对节点抗震性能影响规律的数值模拟分析。结果表明:U形钢板的存在对混凝土具有一定约束作用,并使梁端塑性铰区域外移,梁破坏荷载相应增大;当U形钢板上不设置栓钉时,对于混凝土约束作用减弱,耗能能力降低,梁端塑性铰区域内移;适筋范围内RC梁配筋率ρ_(s)增加可以相应提高节点的承载力和延性。

RCS节点抗震性能有限元参数研究

为研究大尺寸钢筋混凝土柱-钢梁(RCS)节点在地震作用下的受力性能,本研究利用有限元软件ABAQUS建立了RCS节点三维有限元模型,从荷载-位移曲线和破坏模式等方面通过对比计算结果和试验结果,验证了数值模拟的有效性。除此还分析了混凝土强度、纵筋配筋率等不同参数对节点抗震性能的影响。研究结果表明:混凝土强度和体积配箍率对节点抗震性能有显著影响,纵筋配筋率是影响节点极限承载力的关键因素。

Static behavior of semi-rigid thin-walled steel-concrete composite beam-to-column joints with bolted partial-depth flush end plate:experimental study

A new type of semi-rigid thin-walled steel-concrete composite beam-to-column joint has been proposed in this paper.Five semi-rigid composite beam-to-column joint specimens subjected to hogging moments under monotonic loading were tested to study the static behavior of this new type of joint.The main variable parameters for the five joint specimens were the longitudinal reinforcement ratio and the joint type.The experimental results designated that the magnitude of extension of the longitudinal reinforcement is the most important factor that influenced the moment-rotation characteristic of the new type of joint.The concrete slabs could resist 3.8%-19.1% of the total shear load applied to the cross-sections near the beam-to-column connection.The edge stiffened elements,such as the flange of the lipped I-section thin-walled steel beam,were capable of having considerable inelastic deformation capacity although they had comparatively large width-to-thickness ratios.The shear failure of the concrete cantilever edge strip must be taken into account in practical design because it has significant influence on the anchorage of the longitudinal reinforcement in the new type of external joints.

基于二阶RC网络模型的UKPF-VFFRLS电池SOC预测估计

针对单一滤波算法对动力电池荷电状态(SOC)预测估计精度有限的问题,分析并建立了二阶RC网络等效电路模型,进行了离线参数辨识,并验证了辨识结果的准确性。以该模型为基础,运用无迹卡尔曼粒子滤波(UKPF)算法对动力电池SOC的动态模型状态进行预测估计,以带可变遗忘因子的递推最小二乘法(VFFRLS)对动态模型参数进行辨识,两者互为输入输出,实现UKPF-VFFRLS算法的联合估计。仿真实验结果表明:相比原有单一滤波算法,UKPF-VFFRLS联合估计算法使得SOC平均误差降低至0.74%,均方根误差(RMSE)低至0.009 9,提高了SOC的预测估计结果精度,从而提升了能源消耗预判能力和电池使用效率。

Seismic Behavior of Confined RC ColumnComposite Beam Joints

In order to evaluate the seismic behavior of confined RC column-composite beam joints, five interior joints were tested under low cyclic reversed load. The weakening extent of flanges, the number of studs, and whether to reinforce weakened flanges were used as parameters in designing these five joints. Failure characteristics, hysteretic curves, skeleton curves, ductility, energy dissipation, strength degradation, and stiffness degradation were analyzed. The test results revealed that the steel beam flanges in the joints were equivalent to the tie rod. Weakened flanges resulted in poor seismic behavior; however, the seismic behavior could be improved by increasing studs and reinforcing weakened flanges. The joint steel plate hoops, equivalent to stirrups, did not yield when the maximum load was reached, but yielded when the failure load was reached for the joints with shear failure. Increasing stud-type joints and reinforcing flange-type joints ensured good seismic behavior and met project requirements. Based on the experimental results, the failure mechanism of the joints was discussed, and the shear capacity equations of the joints was presented.

Experimental Study on Seismic Behavior ofSeismic-damaged Lateral Joints in CompositeFrame Consisting of CFSST Columns and SteelBeams Strengthened with Enclosed ReinforcedConcrete

A new composite strengthening method of seismic-damaged lateral joints in composite frame consisting of Concrete-Filled SquareSteel Tubes （CFSST） columns and steel beams strengthened with enclosed Reinforced Concrete （RC） at the ends of columns andwelding steel plates at the ends of beams was presented. Based on the current design specifications, one half scaled models of 4lateral joints in composite frame consisting of CFSST columns and steel beams were designed and manufactured. One model wasoriginal control specimen, one was strengthened by enclosed RC, and the others were strengthened after pre-damage. The destructiontests under lateral cyclic load on the models were carried. The effectiveness of seismic-damaged joints strengthened with enclosedRC and the reinforcement effect on different levels of seismic damage were studied. The test results show that seismic- damagedjoints in composite frame consisting of CFSST columns and steel beams strengthened with enclosed RC meets the strongcolumn-weak beam joints requirement of seismic design, and the failure modes are of all joints are the bending failure of steel beam.The reinforcement with enclosed RC has a significant on increasing the ultimate capacity and the seismic behaviors of joints. Thestudy indicated the rehabilitated joints recover the level of their original seismic performances before seismic damage in a certainextent damage level. Based on the test data, namely the ultimate capacity, limit displacement, ductility, the energy consumptioncoefficient, limit displacementthe strengthening method of seismic-damaged joints by strengthened with enclosed RC is an effectivemethod for seismic strengthening.

不同破坏机制的装配式RCS框架节点抗震性能试验研究

提出一种新型钢筋混凝土柱-钢梁(RCS)混合框架节点构造形式,通过对12个1/2比例的柱贯通型RCS混合节点低周往复加载试验,研究强节点系数ηj、节点核芯区加劲腹板构造、钢梁与节点连接构造等参数对试件破坏模式、滞回耗能特性和变形组成的影响。试验研究表明:随着强节点系数的减小,试件破坏形态由梁端的弯曲破坏转变为节点的剪切破坏;试件滞回曲线也相应的由耗能能力较好的梭型转变为捏拢的反S型。ηj>1的试件梁端弯曲变形引起的层间位移超过总位移的60%,而ηj<1的试件,层间位移主要由柱端弯曲变形引起。节点核芯区的加劲腹板有效提高了节点的抗剪强度和刚度,节点区的剪切变形对层间位移的贡献最大不超过10%。ηj<1的试件,节点核芯区加劲腹板在1/20层间位移角时达到屈服,节点的受剪强度同时达到峰值,且随节点剪切变形的进一步增加无明显衰减。节点核芯区预埋高强螺栓和钢梁的连接构造合理可靠,加载过程中无明显相对变形,可满足梁柱刚性节点假设。成果可供装配式RCS混合结构的工程设计参考。

RC框架变梁变柱中节点抗裂性能试验

为了研究RC框架变梁变柱中节点的抗裂性能，进行了6个变梁变柱中节点试件在低周反复荷载作用下的拟静力试验，分析了节点核心区尺寸、轴压比等因素对异型中节点抗裂性能的影响。研究结果表明：异型节点初裂时斜裂缝主要出现在由小梁和上柱构成的小核心区，小核心区开裂荷载为极限荷载的50％～60％；抗裂性能较常规节点劣化，初裂阶段的剪力基本由小核心区混凝土承担，增大轴压比可以提高异型中节点的抗裂承载能力。提出的变梁变柱中节点抗裂承载力计算公式，可供结构工程设计时参考。

装配式RC/ECC组合剪力墙空间结构模型设计方法研究

依托试点工程海门市中南世纪城96号全预制装配式剪力墙高层结构,设计了一个2层的装配式RC/ECC组合联肢剪力墙空间结构1:2缩尺模型,并对模型的相似系数、配筋进行了计算与分析,对模型竖向拼缝节点、水平拼缝节点、装配式剪力墙-叠合连梁节点、装配式叠合连梁-楼板连接节点、装配式叠合楼板-墙体连接节点、叠合连梁中ECC现浇层与预制混凝土水平拼接节点以及连梁与墙肢节点塑性铰区ECC与混凝土节点等关键节点的设计方法进行了研究,并成功完成了装配式RC/ECC组合联肢剪力墙空间结构模型的拼装,提出了此类空间结构模型的设计方法与思路,为空间结构模型的抗震试验研究奠定了基础。

大尺度RC梁柱节点抗震性能及尺寸效应试验研究

基于对一个大尺度RC梁柱节点在低周反复荷载下的加载试验,研究节点的破坏形态、承载能力、滞回特性和耗能能力等抗震性能。并与已有的两个中小尺度梁柱节点的试验数据进行对比,分析尺寸效应对其的影响。结果表明:这些节点都经历了核芯区开裂、梁端屈服、核芯区通裂、剪切极限直至破坏的过程。但是,随着尺寸的增加,节点核芯区斜裂缝的数量明显增多,斜裂缝带中间宽两端细的趋势更加明显。特别在加载后期,大构件节点核芯区的变形和抗剪承载能力下降,刚度衰减加快,耗能能力和延性明显下降。由此看来,在混凝土结构的抗震设计中应该对构件尺寸效应给予更多的注意。

带竖向接缝装配式剪力墙易损性研究

竖向接缝是装配式剪力墙结构中的关键部位,对57个足尺带竖向接缝的装配式剪力墙试验数据进行了易损性分析。依据该类剪力墙构件试验过程的破坏模式提出了5个损伤状态;以位移角为工程指标参数,建立了该类剪力墙的易损性曲线和各损伤状态下的易损性参数;并量化评价了设计轴压比和剪跨比2个关键设计参数对其易损性的影响;对比分析了直接拼接和后浇带拼接两种竖向接缝形式对该类试件易损性参数的影响。结果表明:除竖向接缝混凝土出现掉渣,受压区保护层轻微脱落外,其余损伤状态下的易损性曲线基本满足对数正态分布;直接拼接装配式剪力墙和后浇带拼接装配式剪力墙之间的易损性参数在竖向接缝混凝土结合面开裂,边缘纵筋屈服损伤阶段存在差异,该阶段对应的位移角拟合中值绝对差值和相对差值分别达到0.11%和28.2%。

CFST柱-RC梁钢筋环绕式节点抗震性能试验

通过8个钢管混凝土(CFST)柱-钢筋混凝土(RC)梁钢筋环绕式节点在低周往复荷载作用下的试验,对其在不同轴压比下的开裂破坏模态、滞回特征、剪切变形、钢筋和钢牛腿变形、延性和耗能性能等进行系统研究。试验结果表明,试验节点的破坏模态均为核心区剪切破坏,圆钢管混凝土柱节点较方钢管混凝土柱节点的滞回曲线饱满,但均能满足现行规范的抗震设计要求。

分布式连接全装配RC楼盖竖向承载力与变形分析

在分布式连接新型全装配RC楼盖中,板与板之间通过连接件连接实现横板向传力。为研究新型楼盖竖向承载力计算方法,进行了新型楼盖在竖向荷载作用下的内力与变形分析。结果表明:基于正交各向异性弹性薄板小挠度理论和单三角级数法得到四边简支新型楼盖在竖向均布荷载作用下的弯矩与挠度表达式,提出了新型楼盖横板向刚度计算方法,并通过与试验和有限元结果对比,验证了所提方法的准确性;新型楼盖的挠度在两个方向呈空间抛物面分布,表明新型楼盖具有良好横板向传力性能;板缝连接可有效传递板内弯矩,但正交的两个方向弯矩传递效果存在差异,表现为顺板向弯矩的传递效果优于横板向。研究成果可为分布式连接全装配RC楼盖的研究和应用提供参考。

考虑梁轴向约束效应的RC梁柱节点受力机理及抗震性能试验研究

钢筋混凝土(RC)框架梁受弯损伤会发生轴向伸长,周边构件(抗侧力构件、现浇板)对梁伸长的约束作用会在梁中产生不可低估的轴力,从而影响梁柱构件和节点的抗震性能以及结构的强震破坏模式。分析了梁中约束轴力对节点抗剪受力机理的影响,设计了6个1/2比例的RC梁柱子结构试件,采用可直接量测约束轴力的等效约束装置代替周边构件对梁伸长的约束作用,通过低周往复加载试验考察了梁轴向约束效应对节点抗剪需求、抗剪承载力以及损伤破坏模式的影响。结果表明,约束轴力对抗剪需求的影响比抗剪承载力的影响明显,梁轴向约束效应产生的轴力较大,且随梁弯曲变形的增大而增加。与无约束试件相比,考虑梁轴向约束效应的试件节点抗剪需求增大了1.14~2.22倍,节点区斜裂缝宽度较大,损伤情况更加严重。

分布式连接全装配RC楼盖横板向弯曲刚度计算方法研究

在分布式连接全装配RC楼盖(DCNPD)中,板与板之间和梁板之间通过连接件连接以提高楼盖的竖向承载力和平面内刚度。为研究DCNPD竖向承载力计算方法,在试验基础上进行了DCNPD横板向弯曲刚度理论与数值模拟分析。结果表明:DCNPD的竖向承载能力略小于现浇楼盖,远大于不加连接件的装配式楼盖,验证了DCNPD板缝构造横板向传力的有效性;建立了DCNPD横板向弯曲刚度简化分析模型,基于等效梁模型理论提出DCNPD横板向弯曲刚度计算方法,并验证了该方法用于楼盖竖向承载力弹性分析的可行性;楼盖的板缝数和连接件个数对其横板向与整体楼盖的竖向承载能力影响较大,而板缝数的影响更为显著,工程中在运输和吊装条件允许的情况下,宽板预制方案可有效提高楼盖的竖向承载能力。研究成果可为分布式连接全装配RC楼盖的研究应用提供参考和依据。