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1.
考虑管道外包混凝土在设计荷载下开裂的影响,采用振型分解反应谱法,研究了重力坝坝后背管在9度地震作用下的自振特性和承载性能规律。研究表明:管道外包混凝土开裂对结构的自振特性影响较小,而对管道钢材应力和管腰截面应力影响较大;高烈度地震作用使背管上弯段至斜直段顶部出现双向裂缝,不利于钢衬与外包混凝土联合承载,同时管坝接缝面和管腰截面呈现较大的拉剪应力状态,不利于管道和坝体的联合承载;坝段间、岸坡坝段与岩体间有可靠的相互约束作用时,横河向地震作用对整体结构的承载性能影响很小。 相似文献
2.
大空间砖—混凝土组合砌体结构地震反应初步研究 总被引:2,自引:0,他引:2
本文研究了600m^2演播室大空间砖-混凝土组合砌体结构的动力特性,采用振型叠加反应谱法进行了结构地震反应计算,分析了地震作用下结构的位移特点和内分分布,获得了一些初步结论,对合理进行该类结构体系的计算分析工作和抗震设计具有一定的指导意义。文中也指出了该类结构体系有待研究和解决的一些问题。 相似文献
3.
本文采用子空间迭代法分析了单层膜型网壳结构的自振特性;推导了大跨空间结构几何非线性地震响应时程分析的计算过程,编制相应的计算程序,用振型分解反应谱法与时程法进行了结构地震响应特性分析。研究表明:膜型网壳结构的抗震性能比较好;用反应谱法分析时,水平地震作用下截断振型取15、竖向地震作用下取60可满足工程设计要求;用反应谱法计算结构竖向地震响应是安全可靠的,但进行水平地震响应分析时,最终还需用时程法进行验算。 相似文献
4.
三峡升船机塔柱结构抗震试验研究 总被引:4,自引:0,他引:4
通过在大型三向六自由度振动台进行三峡升船机塔柱结构的抗震试验,并辅助以动力计算分析研究,确定了升船机塔柱结构的固有频率,振型及阻尼比等动力特性,得到了升船机塔柱结构沿主轴方向的设计地震作用下的动力反应,评价三峡升船机塔柱结构的抗震安全性。对影响机房设备安全运行的各塔柱顶部最大地震相对位移进行论证。 相似文献
5.
本文研究了钢构架悬吊锅炉的动力特性和地震反应,其主要内容为:1.测量了60万千瓦锅炉构架的动力特性,得到了第一、二、三阶振动周期,振型和阻尼值。2.用有限元法计算了60万千瓦锅炉构架的空间动力特性和地震反应。3.给出了悬吊锅炉抗震设计简化分析方法,用该方法计算了60万千瓦锅炉的动力特性和地震反应。用两种方法算得的周期和振型与实测结果基本上吻合;用两种方法算得的地震反应也基本上一致。 相似文献
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7.
结构动力灵敏度分析中的几个问题 总被引:3,自引:0,他引:3
结构动力灵敏度分析是进行抗震结构优化设计和考虑参数不确定性进行动力可靠性分析的基本步骤。本文就结构动力分析中几个常用的计算过程进行灵敏度分析研究,给出了Choleskey分解矩阵及其它常用数学变换的灵敏度计算表达,分析了振型灵敏度的传递作用,指出对于一般的剪切型结构可以不考虑振型及振型参与系数的灵敏度,从而使问题大为简化。本文还讨论了结构动力反应与各基本参数的灵敏度之间的关系,提出了直接通过结构地震反应得到灵敏度谱的设想。作者认为,通过大量的统计分析可以得到工程上实用的地震反应灵敏度谱。 相似文献
8.
钢结构与混凝土结构阻尼比不同,混凝土房屋与其顶上钢塔组成了非比例阻尼结构系统。本文用非经典振型分解法求解该类结构系统的线弹性地震响应,发现只用前几阶振型响应迭加的结果即可逼近直接积分法的精确度。 相似文献
9.
基于ETABS的钢筋混凝土框架与楼梯共同工作性能分析 总被引:4,自引:0,他引:4
本文利用大型结构分析软件ETABS设计了4种包含和不包含楼梯的钢筋混凝土框架计算模型,分别采用底部剪力法、反应谱法和时程分析法对各模型进行了弹性阶段地震反应特性对比计算分析.结果显示:楼梯参与结构整体计算后,结构出现抗侧刚度明显增加、结构扭转振动显著、梯间框架柱剪力突变等现象;建议结构设计时采用包含楼梯的层间结构计算模型(M-4),使用振型分解反应谱法进行结构抗震分析计算. 相似文献
10.
耗能减振结构的抗震设计方法 总被引:54,自引:7,他引:47
本文基于国内外耗能减振装置的性能试验和耗能减振结构的计算研究并结合我国正在修订的建筑结构抗震规范。提出了耗能减震结构抗震设计的统一方法。首先,提出了速度相关型线性耗能器和滞变型耗能器等效阻尼和刚度的计算方法;其次,通过大量的计算比较,研究了耗能减振结构非交阻尼阵强行解耦的精度和实际应用的可行性,提出了在结构地震反应分析了振型分解反应谱法中耗能器可统一归结为结构附加振型阻尼比的方法;第三,通过耗能减 相似文献
11.
冶勒沥青混凝土心墙堆石坝最大坝高为124.5m,坝址区地震烈度高,地质条件复杂。大坝上布设了9台强震仪组成的强震监测台阵,自2005年12月开始投入运行至2014年12月底共获得有效记录57次,其中包括汶川地震、攀枝花地震和芦山地震记录。对典型强震记录进行时域分析和频谱分析,初步总结了冶勒大坝的动力反应特性。研究结果表明,大坝坝顶部位的动力反应主要以放大为主,并且随着底部PGA的减小,坝体放大倍数明显增大;由于地震动本身震源特性、传播途径的差异,大坝在不同地震中动力反应的频谱特性明显不同,但多次记录均显示土石坝体有较为明显的滤波作用。 相似文献
12.
A time-domain method for the analysis of arch dam-foundation rock dynamic interaction during earthquake was proposed, and
the dynamic relaxation technique was adopted to obtain the initial static response for dynamic analysis by [Du et al. (2005).
The paper has been contributed to Bulletin of earthquake engineering]. In this paper, a nonlinear explicit method in time
domain considering the opening and closing effect of contact joints on arch dam during earthquake is further proposed by introducing
the dynamic contact force model into the method. The simulation accuracy of dynamic contact force model is verified by comparing
its calculation result and test result of scale model on shaking table. Finally, the influence of joints on the seismic response
of Xiaowan arch dam is studied by the proposed method and some conclusions are given. 相似文献
13.
汤溪水库始建于1959年,当时未对地震设防。为响应“国际减灾十年”号召,有关部门要求对该水库大坝的抗震能力进行复核。 在研究区的地震地质、地震活动性以及深部地球物理场等资料的基础上,划分出四个潜在震源区,并用概率地震危险性分析方法,给出复核大坝抗震能力的两个等级的地震动:取地震复发周期475年(相当于地震基本烈度)的峰加速度142.2cm/s~2,复发周期2474年(相当于“罕遇烈度”)的峰加速度229.6cm/s~2。 在上述地震动下,利用三种方法对大坝抗震能力进行复核:1.水工建筑物抗震设计规范SDJ10—78的拟静力法;2.有限元整体永久变形分析法;3.有限滑动永久变形分析法。根据上述三种方法的复核结果,主坝可以抗御地震基本烈度的作用;在罕遇烈度下,几种方法的结果稍有不同;拟静力法的最小安全系数K=1.08,稍小规范规定的1.1;整体永久变形算出的最大水平永久变形10.8cm,估计坝顶和坝坡会出现规模不大条数不多的纵、横向裂缝,因此是可以接受的,有限滑动分析的几种类似的方法给出的结果差别较大,尤其是Romo法,得出水平和垂直最大永久变形分别为66cm和21cm。综合来看,在罕遇烈度下,主坝的抗震能力处于临界状态。副坝抗震能力高,在罕遇烈度下也是令人放心的。 相似文献
14.
An analysis of the influence that reservoir levels and bottom sediment properties (especially on the degree of saturation) have on the dynamic response of arch dams is carried out. For this purpose, a Boundary Element Model developed by the authors that allows the direct dynamic study of problems that incorporate scalar (dammed up water), viscoelastic (dam and soil site) and poroelastic media (bottom sediments in the reservoir) is used. All of the regions are discretized using boundary elements, later formulating equations of compatibility and equilibrium that allow their interaction to be rigorously established. The seismic excitation consists in plane longitudinal waves (P waves) and shear waves (S waves) impinging the dam site with an angle of vertical incidence. The analysis is carried out in the frequency domain, and the time response is obtained, for synthesized artificial accelerograms defined in terms of the elastic response spectrum taken from Eurocode 8, using a FFT algorithm. The variables used to characterize the response are: Amplitude of the complex-valued frequency-response function, acceleration response spectra and the integral of velocity of points located at the structure. These variables clearly indicate the importance that the factors analyzed have on the dynamic response. 相似文献
15.
The growth in computer processing power has made it possible to use time-consuming analysis methods such as incremental dynamic analysis(IDA) with higher accuracy in less time.In an IDA study,a series of earthquake records are applied to a structure at successively increasing intensity levels,which causes the structure to shift from the elastic state into the inelastic state and finally into collapse.In this way,the limit-states and capacity of a structure can be determined.In the present research,the IDA of a concrete gravity dam considering a nonlinear concrete behavior,and sliding planes within the dam body and at the dam-foundation interface,is performed.The influence of the friction angle and lift joint slope on the response parameters are investigated and the various limit-states of the dam are recognized.It is observed that by introducing a lift joint,the tensile damage can be avoided for the dam structure.The lift joint sliding is essentially independent of the base joint friction angle and the upper ligament over the inclined lift joint slides into the upstream direction in strong earthquakes. 相似文献
16.
调查、搜集和研究了汶川地震中被评定为高危以上险情的147座小型水库土坝的地震破坏情况,给出了高危以上险情土坝的地震破坏程度划分为中等破坏、严重破坏和极严重破坏三个等级的原则和标准,以及土坝的地震破坏程度与地震烈度、土坝的宽高比、上游坡比、坝高的经验关系表,可发现:土坝的几何形状对其破坏程度起着重要的作用;对于6~8度地震烈度区,土坝的宽高比越小,或上游坡比越小,或坝体越高,则土坝的破坏程度越严重;对于9度以上地震烈度区,土坝通常发生极严重破坏。依据高危以上险情土坝的地震反应分析结果,给出了土坝地震破坏程度与土坝宽高比、坝高、土坝上游坡比及坝顶加速度放大系数、坝体最大动剪应力的经验关系曲线,发现在相同的地震烈度水平下,土坝的宽高比越小,或上游坡比越小,或坝高越大,且坝顶加速度放大系数越大或坝体最大动剪应力越大,则其地震破坏程度越严重;坝体最大动剪应力超过30kPa的土坝,通常发生严重或极严重破坏,坝体最大动剪应力大于100kPa的土坝,通常发生极严重破坏;土坝离发震断层越远,则其坝顶加速度放大系数越大。本文给出的高危以上险情土坝的地震破坏程度与坝体几何形状的经验关系,可为今后土坝抗震设计提供参考依据。 相似文献
17.
Kefayati Sadegh Baghbanan Alireza Torkan Masoud Hashemolhosseini Hamid Dehnavi Roohollah Narimani 《地震工程与工程振动(英文版)》2020,19(4):937-951
Uncertainty in input fracture geometric parameters during analysis of the stability of jointed rock slopes is inevitable and therefore the stochastic discrete fracture network (DFN) — distinct element method (DEM) is an efficient modeling tool. In this research, potentially unstable conditions are detected in the right abutment of the Karun 4 dam and downstream of the dam body as a case study. Two extreme states with small and relatively large block sizes are selected and a series of numerical DEM models are generated using a number of validated DFN models. Stability of the rock slope is assessed in both static and dynamic loading states. Based on the design basis earthquake (DBE) and maximum credible earthquake (MCE) expected in the dam site, histories of seismic waves are applied to analyze the stability of the slope in dynamic earthquake conditions. The results indicate that a MCE is likely to trigger sliding of rock blocks on the rock slope major joint. Furthermore, the dynamic analysis also shows a local block failure by the DBE, which can consequently lead to slope instability over the long term. According to the seismic behavior of the two models, larger blocks are prone to greater instability and are less safe against earthquakes.
相似文献18.
Ruifang Yu Yisheng Song Xiangyun Guo Qianli Yang Xinjuan He Yanxiang Yu 《地震科学(英文版)》2022,35(5):314-328
Seismic hazard analyses are mainly performed using either deterministic or probabilistic methods. However, there are still some defects in these statistical model-based approaches for regional seismic risk assessment affected by the near-field of large earthquakes. Therefore, we established a deterministic seismic hazard analysis method that can characterize the entire process of ground motion propagation based on stochastic finite-fault simulation, and we chose the site of the Xiluodu dam to demonstrate the method. This method can characterize earthquake source properties more realistically than other methods and consider factors such as the path and site attenuation of seismic waves. It also has high computational efficiency and is convenient for engineering applications. We first analyzed the complexity of seismogenic structures in the Xiluodu dam site area, and then an evaluation system for ground motion parameters that considers various uncertainties is constructed based on a stochastic finite-fault simulation. Finally, we assessed the seismic hazard of the dam site area comprehensively. The proposed method was able to take into account the complexity of the seismogenic structures affecting the dam site and provide multi-level parameter evaluation results corresponding to different risk levels. These results can be used to construct a dam safety assessment system of an earthquake in advance that provides technical support for rapidly and accurately assessing the post-earthquake damage state of a dam, thus determining the influence of an earthquake on dam safety and mitigating the risk of potential secondary disasters. 相似文献
19.
通过二维数值计算,讨论合理建立阻尼矩阵对高重力坝时域内进行地震反应计算的重要性。首先,以4个不同坝高的混凝土重力坝为计算对象,将三种地震波作为水平输入,解得6种不同的阻尼矩阵形式下坝体的地震反应。然后以频域内解为标准,研究各种阻尼矩阵的合理性。研究结果表明:坝高超过250 m高的重力坝在时域内进行的地震反应计算是长周期系统的动力分析问题,应重视阻尼矩阵的建模方式,不宜采用单频率参数的质量比例阻尼矩阵和刚度比例阻尼矩阵,应采用双频率参数的Rayleigh阻尼矩阵,在确定2个频率参数时除采用坝体基频外还应考虑激振地震波的频谱特性以获得合理的坝体地震反应计算结果。 相似文献
20.
黄河柴家峡水电站坝址区地震动参数研究 总被引:1,自引:0,他引:1
本文结合柴家峡水电站坝址区的地震地质环境、历史地震特征以及场地条件,采用考虑地震分布时空不均匀性的综合概率法,对场区进行了地震危险性分析,在此基础上给出了坝址区50年超越概率63.2%、10%、2%三个概率水准的设计地震动参数,为大坝的抗震设计和安全运营提供了依据。 相似文献