共查询到20条相似文献,搜索用时 426 毫秒
1.
《世界地震工程》2017,(2)
为了研究结构系统与设备系统的动力相互作用,设计并制作了1个由钢筋混凝土框架结构和钢结构单自由度振子组成的结构-设备耦合体系模型,并进行了振动台试验。试验测试了模型结构在不同地震波峰值加速度下的动力特性、位移反应和动应变。根据试验结果,分析了耦合系统的受力过程和破坏机理。采用ABAQUS进行有限元分析,分析了设备与结构不同质量比参数情况下,耦合模型和堆聚质量模型频率特性以及地震响应的差异。研究表明:在地震作用下会形成非线性结构-弹性设备的耦合体系;结构屈服后设备的动力放大系数小于屈服前的放大系数;耦合体系的计算频率小于堆聚质量体系的计算结果,地震响应大于集中堆聚体系,质量比越大,两者的差异也越大。 相似文献
2.
设计并完成比例尺1∶100的边坡振动台模型试验,讨论模型的相似关系、传感器的布置及模型的建造,并编制相应的动荷载加载方案。通过输入不同类型、不同幅值、频率的动荷载,分析模型边坡在地震作用下的动力响应规律以及地震动参数对边坡动力特性和动力响应的影响。试验结果表明,在坡体的表面和坡内的竖直方向上,加速度放大系数均随着高程增加而明显增大。当输入不同压缩比的地震波时,压缩比越大坡体的动力响应越明显,即随着输入动荷载的频率增加,越接近土体的自振频率加速度放大效应越明显;在坡体的同一高程处,坡面的加速度放大系数略大于坡体内的加速度放大系数,表现出一定的趋表效应,同时随着输入地震波振幅的增加,加速度放大系数整体出现递减的趋势。实验结果分析有助于揭示土质边坡在地震作用下的失稳破坏机制,为今后边坡工程的抗震设计提供积极的参考。 相似文献
3.
《世界地震工程》2017,(3)
利用ANSYS有限元软件建立了边坡数值模型,并结合汶川地震实例分析了边坡的共振特性、动力响应变化以及地震动三要素对边坡动力响应的影响,对汉源县高烈度异常现象从共振的原因做出了解释。通过分析发现:边坡的共振主要由前5阶固有频率被激发引起,坡体阻尼和地震波频率对共振作用有显著影响。边坡体对输入地震波低频部分存在放大作用,对高频能量具有滤波作用。坡体加速度和位移响应随高程增加而增大,沿水平方向从左至右,位移减小,加速度先增后减。坡体峰值加速度放大系数随频率的增加而减小,随持时变化不明显;坡体位移随振幅和持时增加而增大,随频率增大而减小;弹性范围内,加速度和位移动力响应绝对量随振幅增大呈明显的线性增长关系,而位移、加速度放大系数保持不变;坡面陡坎处动力响应突变效应明显。 相似文献
4.
为了从能量角度研究重力坝地震响应的时频特征,在重力坝非线性动力分析基础上,探讨了重力坝地震过程中振动能量的时域耗散机制;采用小波频域多层次分解技术研究了其动响应的分频段能量特征,得到了坝体典型位置动响应分频段振动能量随高程的变化规律.通过分析发现:结构地震能量耗散为时域上不可逆的增加,坝体损伤集中出现在地震过程的某个时间段,地震动峰值后坝体损伤状态基本稳定;小波分解可以较全面地描述结构动响应能量的分频段特征.对于本文算例,在坝踵和上游折坡附近,重力坝地震响应的振动能量以4~8 Hz频段为主,这与输入的地震信号分频段特征一致;而坝顶附近则以1 ~4 Hz的振动能量为主,高频能量分量的比重随高程增大而逐渐减小. 相似文献
5.
《世界地震工程》2015,(1)
斜坡的坡体结构是控制斜坡变形破坏模式、影响斜坡动力特性的重要因素。为了进一步了解"坡体结构面如何影响边坡地震动力响应规律"这一问题,对均质斜坡(无结构面)和水平层状岩质斜坡(含水平结构面)两种类型的岩质斜坡进行了大型振动台试验研究,并着重对比分析了有无结构面对岩质斜坡峰值加速度动力响应规律的影响。研究结果表明:水平层状斜坡坡表和坡内加速度动力响应基本上都大于均质斜坡,即水平层状岩质斜坡存在层面放大作用,但水平结构面对斜坡加速度动力响应放大作用的程度与地震波类型、频率、振动强度和激振方向有关,总的来说,水平层面对Z向地震波的放大作用大于对X向地震波;在本试验研究中,频率仅影响层面放大系数量值的变化,而地震波类型及其振动强度和激振方向则对其分布形式和量值均有显著影响。 相似文献
6.
路基地震峰值加速度响应特性振动台试验研究 总被引:1,自引:0,他引:1
在采用拟静力法分析公路路基抗震稳定时,需要考虑路基对地震加速度产生动力放大效果的影响。为了研究该放大效果,针对填方路基在强地震动作用下的动力响应,设计并完成了1∶20比尺的路基大型振动台模型试验。通过输入不同类型、幅值、频率的地震波激励,研究地震作用下路基模型边坡地震峰值加速度的放大系数。试验结果表明,路基边坡对输入的水平地震波具有明显的放大作用,而对竖向地震波的放大作用不明显。沿路基高程向上,水平地震波加速度峰值放大系数呈现波动,且坡面的放大系数大于路基内部的放大系数。在不同类型、不同振幅和不同频率的地震波作用下,路基地震峰值加速度放大系数具有明显的差异。试验结果可为确定路基抗震稳定设计的动力荷载提供相应的参考。 相似文献
7.
8.
在核电站中:核电设备通过不同的固定条件与结构相连,地震作用时设备与结构动力相互作用复杂,为分析核电设备多维地震响应并鉴定其抗震性能,进行了考虑不同固定条件的核电设备多维地震响应振动台试验研究。振动台试验进行了5次运行基准地震和1次安全停堆地震的动力时程激振,以及试验首末2次动力特性测试。试验结果表明:不同固定条件会影响核电设备多维地震响应的加速度峰值、反应谱特性和动力放大系数,与设备直接固定于振动台相比,将核电设备悬挂固定于剪力墙再与振动台连接的固定条件,改变了设备反应谱特性,且放大了响应的加速度峰值,具有显著的动力放大效应,使核电设备多维地震响应更为强烈。因此,对此类固定条件的核电设备,在产品设计及安装固定时要充分考虑动力放大效应,以提高设备的抗震韧性。抗震试验前后,核电设备功能运行正常,结构完整性好,抗震性能满足要求。 相似文献
9.
弦支穹顶结构动力反应分析 总被引:1,自引:0,他引:1
以天津开发区商务中心大堂的弦支穹顶为研究对象,分析了弦支穹顶结构体系的自振特性,分别运用随机模拟风振分析方法和时间历程分析方法,对其进行了风振和地震反应分析,得到了结构在动力荷载作用下的响应时程,并对分析结果进行了频谱分析和统计分析。研究发现弦支穹顶结构的自振频率呈密集型分布,且振型复杂;结构的风振响应基本以受迫振动为主,没有出现明显的峰值共振现象;结构的地震响应在前几阶基频处出现了较为明显的峰值共振现象;从振动的幅值角度看,风荷载的动力作用效应相对于地震荷载要显著。 相似文献
10.
为研究单围柱重檐攒尖木结构的动力特性及地震响应,以西安兴庆宫五龙坛木结构建筑为例,对其进行原位动力试验,采用峰值拾取法与随机子空间法,分析了结构的前6阶自振频率、空间振型及阻尼比。考虑单围柱、榫卯连接、斗栱铺作、抹角梁架空间构造的特征,建立了单围柱重檐攒尖木结构有限元分析模型,计算得到结构的前6阶频率、振型及五龙坛原位试验结果吻合较好。结果表明:单围柱重檐攒尖木结构一阶自振频率在1.924~1.975 Hz之间,二阶自振频率在2.146~2.15 Hz之间,一、二阶振型分别为南北平动与东西平动;三阶自振频率在2.775~2.841 Hz之间,振型为扭转振动。输入不同幅值的El Centro波、Taft波及兰州波地震激励,在罕遇地震作用下底层最大层间位移角为1/83,童柱层最大层间位移角为1/87。 相似文献
11.
Ambient accelerations due to dynamic excitation by wind and traffic were measured on the deck, towers, cables and hangers of the Fatih suspension bridge. From these measurements it was possible to obtain natural frequencies, mode shapes and damping ratios for vertical, lateral, torsional and associated modes in the deck and tower up to a maximum of 2 Hz. The objective of the test was to validate the mathematical modelling used in seismic analyses of the bridge. The agreement between the experimental and theoretical modes was acceptable for vertical modes below 1 Hz, and for torsional modes, but it was difficult to identify the lateral modes due to low levels of response. The dynamic behaviour of this bridge and two other major European suspension bridges is discussed in relation to the differences in loading and structural design. 相似文献
12.
—The paper presents results of experiments designed to measure the actual dynamic magnification of the Wiechert 1000 kg horizontal seismometer when excited by seismic waves. This is accomplished by comparing 51 digital records of seismic events recorded by the Wiechert and a well calibrated reference seismometer. The results obtained indicate that the magnification of the Wiechert seismometer is influenced by the interaction of its mass and frame, especially for high frequencies. This interaction has been modeled by considering a system of two coupled pendulums, yielding a theoretical dynamic magnification curve which exhibits main features of the observed magnification. The dis crepancy between the nominal and the actual response of the Wiechert seismograph may lead to errors in studies involving spectral analyses of recorded seismograms, and to overestimation of local earth quake magnitudes. 相似文献
13.
14.
In this work, an experimental study was carried out with the aim of reconciling static and dynamic stiffness of Opalinus Clay. The static and dynamic stiffness of core plugs from a shaly and a sandy facies of Opalinus Clay were characterized at two different stress states. The measurements included undrained quasi-static loading–unloading cycles from which the static stiffness was derived, dynamic stiffness measurement at seismic frequencies (0.5–150 Hz) and ultrasonic velocity measurements (500 kHz) probing the dynamic stiffness at ultrasonic frequencies. The experiments were carried out in a special triaxial low-frequency cell. The obtained results demonstrate that the difference between static and dynamic stiffness is due to both dispersion and non-elastic effects: Both sandy and shaly facies of Opalinus Clay exhibit large dispersion, that is, a large frequency dependence of dynamic stiffness and acoustic velocities. Especially dynamic Young's moduli exhibit very high dispersion; between seismic and ultrasonic frequencies they may change by more than a factor 2. P-wave velocities perpendicular to bedding are by more than 200 m/s higher at ultrasonic frequencies than at seismic frequencies. The static undrained stiffness of both sandy and shaly facies is strongly influenced by non-elastic effects, resulting in significant softening during both loading and unloading with increasing stress amplitude. The zero-stress extrapolated static undrained stiffness, however, reflects the purely elastic response and agrees well with the dynamic stiffness at seismic frequency. 相似文献
15.
Shaking table testing of an existing masonry building: assessment and improvement of the seismic performance 
下载免费PDF全文
下载免费PDF全文 This paper aims to assess and improve the seismic performance of an existing masonry building with flexible floors, representative of a Portuguese building typology—‘gaioleiro’ buildings. The study involved seismic tests and dynamic identification tests of two models (nonstrengthened and strengthened) in the shaking table. Each model was subjected to several seismic tests with increasing amplitude. Before the first test and after each seismic test, the dynamic identification of the model was carried out, aiming at obtaining their seismic vulnerability curves based on a damage indicator obtained from the decrease of the frequencies of the modes. In the strengthened model, steel elements were used to improve the connection between walls and floors, together with ties in the upper stories. The results show that adopted strengthening technique is effective for reducing the seismic vulnerability of ‘gaioleiro’ buildings, namely for improving the out‐of‐plane behavior of the facades. Copyright © 2013 John Wiley & Sons, Ltd. 相似文献
16.
17.
18.
在传统输电塔抗震分析中,通常假设输电塔固定在地面上,而不考虑土G结构相互作用(SoilG Structure Interaction,SSI)对结构的影响,从而可能导致输电塔抗震性能评估不准确.依托某 1000kV输电铁塔实际工程,对地震动激励下考虑SSI的输电塔进行综合的地震响应、倒塌破坏和倒塌易损性分析.在 ABAQUS中,通过沿桩体设置依据 API规范确定的零长度弹簧模拟土体与桩体间的相互作用,建立考虑SSI的输电塔有限元模型.基于数值模型,开展输电塔动力特性和结构动力响应分析.采用增量动力分析(Incremental Dynamic Analysis,IDA)方法,研究SSI对输电塔倒塌机理和易损性的影响.结果表明:考虑和未考虑SSI的输电塔振型相似,但自振频率相差较大;忽略SSI会低估输电塔的地震响应,同时高估输电塔的抗倒塌能力.因此考虑SSI可以提高输电塔抗震能力,进而确保输电线路的安全性. 相似文献
19.
Traffic and wind excitation has been used to obtain the dynamic characteristics of the first Bosporus (Bogazici) Suspension Bridge. Structural symmetry and the absence of suspended side-spans allowed attention to be focused on the main span and the Asian tower. For the main span, 18 vertical and 20 lateral modes were obtained, including torsional modes. For the tower, 12 longitudinal and 12 lateral modes were identified. All these models lie in the range 0–1-1 Hz. A detailed comparison is given between these modes and corresponding calculated modes, obtained by use of a three-dimensional finite element model which includes a geometric stiffness matrix. Of particular interest is the validity of the theoretical model used for the box-deck, because of its subsequent use in response studies of asynchronous seismic excitation. Comparison with a more limited study made in 1973 shows that the bridge continues to behave as it was designed to behave, particularly with regard to the deck-tower interface. From natural frequency measurements of two hangers, the load which they carry was assessed. 相似文献
20.
In this study, two different historical structures built in Trabzon have been processed by ambient vibrations and seismic refraction measurements. One of the investigated historical structures is the Atatürk Pavilion built in the nineteenth century, and the other one is Hagia Sophia which was built in the thirteenth century. These two buildings are among the most important historical buildings in Trabzon and are very important for the tourism of the city. In order to determine peak/s frequency and amplitude from the horizontal-to-vertical spectral ratios (HVSRs), we have performed several measurements of ambient vibrations both inside (at different floors) and outside (on the ground) of structures. We have also conducted seismic prospecting to evaluate the vertical 1D and 2D profile of longitudinal and shear seismic waves, Vp and Vs, respectively. To this purpose, we have performed seismic refraction tomography and MASW. Ambient vibrations and seismic measurements were compared with each other. The results show that average predominant frequencies and HVSR amplitudes of inside and outside of Atatürk Pavilion are 4.0 Hz, 7.8 Hz and 2.6, 2.3, respectively. The Vp values vary from 300 to 2070 m/s, and the Vs for maximum effective depth is up to 790 m/s in Atatürk Pavilion. On the other hand, average predominant frequencies and HVSR amplitudes of inside and outside of Hagia Sophia and its tower are 4.7, 4.4 and 2.4 Hz and 1.6, 1.8 and 6.9, respectively. Vp values range from 450 to 2200 m/s, and Vs for maximum effective depth is also up to 1000 m/s in Hagia Sophia. The frequency values (F0?=?Vs/4 h) calculated from the velocities up to the maximum effective depth for Atatürk Pavilion are in good agreement with the predominant frequency values determined from ambient vibrations. Atatürk Pavilion and Hagia Sophia soils have been classed according to Eurocode 8 by using VS30 values. The class was defined as “B.” Moreover, the bedrock in studied area is basalt. The high Vp and Vs values are also compatible with the lithology. The HVSR curves measured at the Hagia Sophia show the presence of clear peaks when compared to the Atatürk Pavilion. At the same time, there are marked velocity changes in the Vs sections calculated in both areas. As a result, in both areas there are significant impedance contrasts in the subsoil. However, this impedance contrast is more evident in Hagia Sophia. This could be also compatible with a lithological transition. The possible soil–structure interaction was investigated by using all the results and evaluated in terms of resonance risk. It is thought that the probability of resonance risk at Atatürk Pavilion is low according to the ambient vibrations measurements. However, resonance risk should be taken into consideration at Hagia Sophia site since the predominant frequency values are very close to each other. Finally, this site should be investigated in detail and necessary precautions should be taken against the risk of resonance. 相似文献