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孔梁水库诱发地震预测研究 总被引:1,自引:1,他引:0
对孔梁水库所在的巫溪地区地壳深部结构、地球物理场和构造地震特征进行了研究,认为地壳中上部强烈推覆挤压构造的应力集中,是该地区构造地震发生的动力来源,该构造也控制着水库诱发地震的分布和强度。综合多种预测方法成果并结合库区地震地质条件进行分析,认为孔梁水库诱发地震的最大震级约为4级,震中烈度为Ⅵ度,不会超出原设计水平,因而对水工建筑物没有破坏性影响,但对山区农村危房可能会造成一定的破坏。应加强地震观测和防震抗震措施的落实及宣传工作,把可能的地震损失降到最低程度,发挥水库的综合效益。 相似文献
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以单层柱面网壳结构为研究对象,利用El-centro地震波对该类结构进行了时程地震反应分析,考察了结构的地震响应和抗震性能,研究了其在地震作用下的动力失稳特点。选取了几种几何尺寸不同的单层柱面网壳,分析了矢跨比和长跨比对单层柱面网壳动力稳定性能的影响。 相似文献
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装配式预制混凝土框架结构拟动力试验研究 总被引:4,自引:0,他引:4
本文对2个采用橡胶垫螺栓连接梁柱节点的单层两跨的装配式预制混凝土框架结构进行拟动力试验,考察结构的破坏模式,研究结构的强度、刚度、滞回、耗能等抗震性能。试验结果表明:此类装配式预制混凝土框架结构具有较好的抗震性能,当层间位移角达到1/25时,结构仍具有一定的承载能力,采用橡胶垫螺栓连接的梁柱节点抗震性能良好,结构体系破坏模式为柱底弯曲破坏。 相似文献
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正地震动输入的确定是开展结构动力反应分析的重要环节。如何有效地反映地震动对建筑结构地震反应及其破坏的影响,是开展结构非线性地震反应分析时面临的重要问题。随着基于性能的抗震设计理论的不断完善、结构动力分析软件的快速发展和计算机性能的不断提高,结构非线性动力分析逐渐成为结构抗震性能评估和重要工程抗震设计的主要方法。选择 相似文献
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多层混凝土小型空心砌块与煤矸石页岩多孔砖组合砌体模型楼动力性能实测与分析 总被引:2,自引:0,他引:2
对一个1:1比例的多层混凝土小型空心砌块与煤矸石页岩多孔砖组合砌体模型的抗震性能进行了试验研究。对该足尺试件在抗震性能试验的不同受力阶段进行了动力测试,分别得到了结构处于弹性、开裂、屈服和破坏状态下的频率、振型、阻尼等动力参数,分析了模型动力特性的变化特点及原因,为这种结构的抗震设计及动力分析提供了依据。 相似文献
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隔震器与填充墙对建筑抗震性能有很大作用。为了探究填充墙布置形式及填充材料和隔震器协同作用对钢筋混凝土框架结构动力特性及抗震性能的影响,采用等效斜撑理论,对3种不同填充墙布置形式与隔震器协同作用的抗震系统方案进行对比分析,研究发现顶层不布置填充墙与隔震器协同抗震系统钢筋混凝土框架结构的抗震性能最佳。在此系统上分析了不同填充材料对钢筋混凝土框架结构抗震性能的影响,结果表明,加气混凝土砌块填充墙的钢筋混凝土框架结构抗震性能最好。 相似文献
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针对当前混凝土结构建筑抗震性能测试方法存在的测试结果准确率较低的问题,提出一种新的测试方法,利用小波函数的伸缩平移操作得到一个函数族,对模拟地震信号进行小波变换。当函数族组成一个标准的正交基时,从连续小波变换中对地震信号进行重构,将去噪后的地震信号作为检测混凝土结构建筑抗震性能的信号样本。利用单自由度体系的动力平衡方程对地震的位移反应、速度反应加速度反应以及恢复力进行求解,通过强度折减系数计算公式和结构最大弹性反应计算公式,计算混凝土结构建筑的强度折减系数和结构最大弹性反应,最后在震动台上对混凝土结构建筑抗震性能进行测试。测试实验结果表明,所提方法可以实现对混凝土结构建筑抗震性能的测试,且测试结果准确程度较高。 相似文献
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Study on the effect of the infill walls on the seismic performance of a reinforced concrete frame 总被引:1,自引:0,他引:1
Motivated by the seismic damage observed to reinforced concrete (RC) frame structures during the Wenchuan earthquake, the effect of infill walls on the seismic performance of a RC frame is studied in this paper. Infill walls, especially those made of masonry, offer some amount of stiffness and strength. Therefore, the effect of infill walls should be considered during the design of RC frames. In this study, an analysis of the recorded ground motion in the Wenchuan earthquake is performed. Then, a numerical model is developed to simulate the infill walls. Finally, nonlinear dynamic analysis is carried out on a RC frame with and without infill walls, respectively, by using CANNY software. Through a comparative analysis, the following conclusions can be drawn. The failure mode of the frame with infill walls is in accordance with the seismic damage failure pattern, which is strong beam and weak column mode. This indicates that the infill walls change the failure pattern of the frame, and it is necessary to consider them in the seismic design of the RC frame. The numerical model presented in this paper can effectively simulate the effect of infill walls on the RC frame. 相似文献
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Reinforced concrete (RC) frame structures are one of the mostly common used structural systems, and their seismic performance is largely determined by the performance of columns and beams. This paper describes horizontal cyclic loading tests often column and three beam specimens, some of which were designed according to the current seismic design code and others were designed according to the early non-seismic Chinese design code, aiming at reporting the behavior of the damaged or collapsed RC frame strctures observed during the Wenchuan earthquake. The effects of axial load ratio,shear span ratio, and transverse and longitudinal reinforcement ratio on hysteresis behavior, ductility and damage progress were incorporated in the experimental study. Test results indicate that the non-seismically designed columns show premature shear failure, and yield larger maximum residual crack widths and more concrete spalling than the seismically designed columns. In addition, longitudinal steel reinforcement rebars were severely buckled. The axial load ratio and shear span ratio proved to be the most important factors affecting the ductility, crack opening width and closing ability, while the longitudinal reinforcement ratio had only a minor effect on column ductility, but exhibited more influence on beam ductility. Finally, the transverse reinforcement ratio did not influence the maximum residual crack width and closing ability of the seismically designed columns. 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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现浇楼板参与工作后框架结构的pushover分析研究 总被引:2,自引:0,他引:2
为了研究现浇楼板对钢筋混凝土框架结构抗震性能的影响,本文利用pushover方法对框架结构进行了分析研究,在分析中分别考虑和不考虑现浇楼板及其钢筋对梁抗弯承载力的贡献,通过对计算结果进行分析比较得出了一些结论,并对框架结构抗震设计提出了一些建议。 相似文献
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为了充分反映结构的抗连续倒塌能力,文中基于能量原理,将结构倒塌时消耗能量与屈服时消耗能量之比定义为考虑悬链线效应的结构鲁棒性指标.首先进行一榀1/2缩尺的RC平面框架的连续倒塌试验,得到了具有双峰值点的荷载-位移曲线.基于试验数据对有限元模型进行验证与校准.进一步建立了 18 个RC 平面框架结构数值分析模型,研究了中... 相似文献
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组合梁-方钢管混凝土柱框架结构抗震性能的pushover分析 总被引:3,自引:0,他引:3
采用考虑组合梁多材料截面引起的正向、负向刚度、强度和承载力不同的截面本构模型,建立了组合梁结构的弹塑性分析模型,对一个15层的钢混凝土组合梁-方钢管混凝土柱框架结构开展了多遇地震、罕遇地震下的pushover分析,为组合框架结构体系的抗震性能分析以及pushover方法在该体系中的应用提供了参考。在此基础上,与钢梁-方钢管混凝土柱框架结构、钢梁-钢筋混凝土柱框架结构进行对比研究,比较了几种结构的动力特性,表明组合梁-方钢管混凝土柱框架结构体系相对于其它两种框架结构体系具有更好的抗震性能。 相似文献
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Seismic performance and damage evaluation of a reinforced concrete frame with hysteretic dampers through shake‐table tests 下载免费PDF全文
下载免费PDF全文 Passive energy dissipation devices are increasingly implemented in frame structures to improve their performance under seismic loading. Most guidelines for designing this type of system retain the requirements applicable to frames without dampers, and this hinders taking full advantage of the benefits of implementing dampers. Further, assessing the extent of damage suffered by the frame and by the dampers for different levels of seismic hazard is of paramount importance in the framework of performance‐based design. This paper presents an experimental investigation whose objectives are to provide empirical data on the response of reinforced concrete (RC) frames equipped with hysteretic dampers (dynamic response and damage) and to evaluate the need for the frame to form a strong column‐weak beam mechanism and dissipate large amounts of plastic strain energy. To this end, shake‐table tests were conducted on a 2/5‐scale RC frame with hysteretic dampers. The frame was designed only for gravitational loads. The dampers provided lateral strength and stiffness, respectively, three and 12 times greater than those of the frame. The test structure was subjected to a sequence of seismic simulations that represented different levels of seismic hazard. The RC frame showed a performance level of ‘immediate occupancy’, with maximum rotation demands below 20% of the ultimate capacity. The dampers dissipated most of the energy input by the earthquake. It is shown that combining hysteretic dampers with flexible reinforced concrete frames leads to structures with improved seismic performance and that requirements of conventional RC frames (without dampers) can be relieved. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
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Modelling exterior unreinforced beam‐column joints in seismic analysis of non‐ductile RC frames 下载免费PDF全文
下载免费PDF全文 The seismic response of non‐ductile reinforced concrete (RC) buildings can be affected by the behaviour of beam‐column joints involved in the failure mechanism, especially in typical existing buildings. Conventional modelling approaches consider only beam and column flexibility, although joints can provide a significant contribution also to the overall frame deformability. In this study, the attention is focused on exterior joints without transverse reinforcement, and a possible approach to their modelling in nonlinear seismic analysis of RC frames is proposed. First, experimental tests performed by the authors are briefly presented, and their results are discussed. Second, these tests, together with other tests with similar features from literature, are employed to calibrate the joint panel deformability contribution in order to reproduce numerically the experimental joint shear stress–strain behaviour under cyclic loading. After a validation phase of this proposal, a numerical investigation of the influence of joints on the seismic behaviour of a case study RC frame – designed for gravity loads only – is performed. The preliminary failure mode classification of the joints within the analysed frame is carried out. Structural models that (i) explicitly include nonlinear behaviour of beam‐column joints exhibiting shear or anchorage failure or (ii) model joints as elements with infinite strength and stiffness are built and their seismic performance are assessed and compared. A probabilistic assessment based on nonlinear dynamic simulations is performed by means of a scaling approach to evaluate the seismic response at different damage states accounting for uncertainties in ground‐motion records. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献