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利用HHT方法对6个台站的汶川8.0级地震加速度记录进行EMD分解,进而对地震波输入结构的总能量进行分解,得到地震动能量在IMF分量之间的分布关系。同时通过对各分量边际能量谱的分析,可以从另一方面得到地震波的频谱特性,边际能量谱峰值频率与地震波傅立叶谱的卓越频率相同,边际能量谱也可以作为一种估算震动卓越周期的方法。 相似文献
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采用小波变换将地震加速度记录分解为若干小波分量,通过两榀钢筋混凝土框架在这些小波分量及其不同组合作用下的非线性动力分析,找出对框架非线性响应影响最大的小波分量。结果表明,控制框架非线性响应的小波分量为最靠近框架基本周期的低频小波分量,在为结构非线性响应分析遴选地震动记录时应注意这种特点。 相似文献
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《地震工程与工程振动》2017,(5)
将结构地震反应微分求积分析方法用于地震反应谱的计算,发展了一种具有较高精度和计算效率的计算地震反应谱的新方法。通过对3条不同卓越周期和频谱结构的地震地面加速度时程的反应谱的计算,阐释了该方法的可靠性和高效率,并分析了时步长度和节点数量等微分求积分析重要参数对计算结果的影响。研究表明,本文建立的基于状态分析的单自由度体系地震反应微分求积分析方法用于地震反应谱计算是可行的、合理的,对不同频谱结构的地震波都可以适用,且具有计算精度好、计算效率高、使用简便的特点,不失为一种计算地震反应谱的高效实用方法。 相似文献
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根据50组近断层脉冲型强震动记录,采用连续小波变换提取最强速度脉冲分量,建立最强速度脉冲峰值时刻的统计模型。对近断层地震动加速度高频分量的演变功率谱模型参数进行识别,并利用谱表示-随机函数方法实现了降维模拟,进而积分得到速度高频分量。对脉冲参数进行随机化处理,并采用改进Gabor小波模型随机模拟速度低频分量。将速度高频分量与低频分量叠加得到近断层地震动速度时程。数值算例表明,近断层地震动加速度代表性时程集合的幅值谱和反应谱均与实测记录拟合一致,验证了降维模拟方法的工程适用性。近断层脉冲型地震动的降维模拟与概率密度演化理论相结合,可实现工程结构的随机地震反应与抗震可靠性精细化分析。 相似文献
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基于小波变换的拟合规范反应谱多维地震动模拟 总被引:1,自引:0,他引:1
本文提出一种基于小波变换的拟合规范反应谱的多维地震动模拟算法。首先将规范反应谱推广到三维相关设计反应谱,然后将已有的三维地震动加速度时间历程曲线分解为一系列不同频段上的地震动分量,调整每一个地震动分量的幅值使其在相应的频率范围内拟合设计反应谱,最后经过调整后的地震动分量进行重构得到更新的地震动时间历程曲线。将该时间历程曲线的反应谱与目标反应谱进行比较,重复该过程直到误差位于特定的范围内。该方法可以保留原始地震动的局部时-频特性,为多维地震动的模拟提供了一种新的方法。 相似文献
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场地类型对反应谱平台值的影响 总被引:2,自引:1,他引:1
文中在总结一些学者研究基础上,利用土层地震反应分析的一维等效线性化波动方法,以建筑抗震设计规范规定的反应谱为目标谱,合成不同加速度峰值和特征周期加速度时程曲线共28条,将其作为土层地震反应分析的输入地震动,选取和构造了四种场地类型的225个土层剖面,计算了不同土层剖面在不同地震动输入下的设计反应谱的平台值.基于统计分析... 相似文献
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根据强震动观测、实验研究与数值模拟结果表明,山脊地形对地震动具有显著影响。文章基于汶川地震主震及余震的三个地形效应观测台阵记录的三分量地震动加速度时程,经基线校正后计算得到各观测点的地面峰值加速度、峰值加速度比和反应谱比,分析山脊地形对地震地面运动的影响。结果表明:山脊地形对地震地面运动的影响显著,其地形地震效应随山脊地形的不同而变化,且地形效应具有方向性;水平向地形效应显著于垂直向;谱比是周期相关的,在所分析的周期范围内谱比不总是大于1.0。 相似文献
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Praveen K. Malhotra 《地震工程与结构动力学》2001,30(2):279-286
The ground motions induced by an earthquake are expressed by the histories of acceleration, velocity and displacement. It is generally assumed that the acceleration, velocity and displacement histories contain identical information, i.e. the velocity history is obtained by integration of the acceleration history, and the displacement history is obtained by integration of the velocity history. However, this is not always true. In conventional processing of ground motion histories, additional corrections are applied to the velocity and displacement histories, which are not reflected in the acceleration history. As a result, the three ground motion histories contain slightly different information, or they are not fully compatible with one another. The structural response computed from the acceleration history, therefore, does not correspond to the processed velocity and displacement histories. The purpose of this paper is to underscore the engineering difficulties associated with incompatible histories and to provide a method of computing the response spectrum, which is compatible with the acceleration, velocity and displacement histories. Copyright © 2001 John Wiley & Sons, Ltd. 相似文献
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Artificial ground motion compatible with specified ground shaking peaks and target response spectrum 总被引:1,自引:0,他引:1
1 Introduction Time history analysis is usually needed not only for the seismic design of important structures, such as nuclear plants, large concrete dams and super high-rise buildings, but also for seismic performance based design. Performance-based design requires tha knowledge of the entire process of nonlinear seismic responses of structures be obtained, which depends on the ground motion time history as input for this analysis. However, because the observed strong-motion recordings are l… 相似文献
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The response spectrum method has been widely used in earthquake engineering design, but cannot be directly applied to non-linear systems such as the lead-filled rubber bearing used in base isolation systems. An appraoch to determine the equivalent linearized stiffness and damping coefficient of the lead-filled rubber bearing by use of the results of shaking table tests is developed. Comparisons of time histories for the equivalent linear systems and the actual model show the method gives accurate maxima for displacement and acceleration and at the appropriate times. It is found that the identified parameters vary with the maximum deformation and the simplified formulae that can optimally describe the variations are derived. Using these formulae, an iterative algorithm using the response spectrum method to calculate the dynamic response of buildings isolated by lead-filled rubber bearings is also presented. 相似文献
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以1997年4月11日新疆伽师地震(Mw6.1)为例,详细介绍了近断层强地震动场的预测方法.首先,用有限断层震源建模方法建立了该次地震的震源模型;然后,基于动力学拐角频率的地震动随机模拟方法,模拟了该次地震仅有主震加速度记录、且位于巨厚土层上的三个台站的加速度时程,并用实际地震记录进行了验证.在此基础上,基于预测的近断层77个节点的加速度时程的峰值绘制了该次地震的加速度场.结果表明,上述方法模拟的加速度时程在0.5 Hz以上的高频段是可行的、实用的;预测的近断层加速度场具有非常明显的上盘效应.地表最大加速度的范围与断层面上最大凹凸体位置相对应,说明与断层面上凹凸体相对应的地面上的建(构)筑物将会遭受到较为严重的震害. 相似文献
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According to general seismic zoning maps, Moscow is in an area with a seismic intensity of 5, in which the maximum seismic effect is expected from remote deep-focal earthquakes in the Vrancea zone (Eastern Carpathians, Romania). In our previous studies, an earthquake with a hypocenter at a depth of 80–150 km in the Vrancea zone, a moment magnitude of Mw = 8.0, and a drop in stress of Δσ = 325 bar was used as a scenario earthquake for Moscow. A series of model acceleration time histories for ground vibrations was calculated for this earthquake for the reference local conditions of the Moskva seismic station (Moscow, Pyzhevskii per. 3). In this paper, these acceleration time histories are used to calculate the acceleration time histories and estimate the ground vibration parameters for an scenario earthquake at other sites on the territory of Moscow for which information on soil conditions is available. Since the epicentral distance is large (~1300 km), it can be assumed that changes in the shape and spectral content of the acceleration time histories at different sites in Moscow are only caused by different local conditions. 相似文献
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S. T. G. Raghukanth 《Pure and Applied Geophysics》2008,165(9-10):1761-1787
In this paper, ground motion during the Independence Day earthquake of August 15, 1950 (Mw 8.6, Ben-Menahem et al., 1974) in the northeastern part of India is estimated by seismological approaches. A hybrid simulation technique which combines the low frequency ground motion simulated from an analytical source mechanism model with the stochastically simulated high-frequency components is used for obtaining the acceleration time histories. A series of ground motion simulations are carried out to estimate the peak ground acceleration (PGA) and spectral accelerations at important cities and towns in the epicentral region. One sample PGA distribution in the epicentral region encompassing the epicenter is also obtained. It is found that PGA in the epicentral region has exceeded 1 g during this earthquake. The estimated PGA’s are validated to the extent possible using the MMI values. The simulated acceleration time histories can be used for the assessment of important engineering structures in northeastern India. 相似文献
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Kiyoshi Muto 《地震工程与结构动力学》1972,1(1):33-43
The KII Building was subjected to the San Fernando earthquake on 9 February 1971 without suffering any damage. During the earthquake, strong motion accelerations were recorded at the base, middle and top of the building. The simulation analysis of the building was carried out taking into account the interaction between the building and the soil. The internal viscous damping theory considering the different damping coefficients for the building and the soil was adopted. Comparison of the calculated and observed acceleration time histories as well as the floor response spectra showed satisfactory agreement. On the basis of the response spectrum values, the fact that no damage was observed in this building is justified theoretically. 相似文献
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Consecutive combined response spectrum 总被引:1,自引:1,他引:0
Appropriate estimates of earthquake response spectrum are essential for design of new structures, or seismic safety evaluation of existing structures. This paper presents an alternative procedure to construct design spectrum from a combined normalized response spectrum(NRSC) which is obtained from pseudo-velocity spectrum with the ordinate scaled by different peak ground amplitudes(PGA, PGV, PGD) in different period regions. And a consecutive function f(T) used to normalize the ordinates is defined. Based on a comprehensive study of 220 strong ground motions recorded during recent eleven large worldwide earthquakes, the features of the NRSC are discussed and compared with the traditional normalized acceleration, velocity and displacement response spectra(NRSA, NRSV, NRSD). And the relationships between ground amplitudes are evaluated by using a weighted mean method instead of the arithmetic mean. Then the NRSC is used to define the design spectrum with given peak ground amplitudes. At last, the smooth spectrum is compared with those derived by the former approaches, and the accuracy of the proposed spectrum is tested through an analysis of the dispersion of ground motion response spectra. 相似文献
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为了进一步提高人造地震动时程对目标反应谱的拟合精度和效率,本文提出了一种人造地震动反应谱非线性拟合方法.在人造地震动反应谱非线性拟合过程中,认为Fouricr幅值谱与反应谱调整项之间满足非线性(幂指数)关系.通过比例拉伸和折叠等数值技巧以促使模拟加速度向目标加速度逼近.算例分析结果表明,人造地震动反应谱非线性拟合方法具... 相似文献
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以日本KiK-net强震观测台网中硬场地井下记录为样本,对传统等效线性化方法LSSRLI-1(频域)、SHAKE2000,时域非线性方法DEEPSOIL和频域一致等效线性化方法SOILQUAKE等几种计算程序在硬土场地地震反应分析中的可靠性进行对比检验。检验工况包括KiK-net井下台网中地表峰值加速度不小于0.05g的水平硬场地的总计344台次的加速度记录,涉及5个台站,土层厚度6~50m,地表峰值加速度范围0.050~0.805g。结果表明:认为硬土场地以往计算方法能够体现土层放大的认识是片面的,在中强地震动情况下,现有流行方法计算出的地表响应会偏小,强地震动下会严重偏小,会给工程抗震设计提供偏于危险的输入;硬场地中烈度8度以下(地表PGA在0.19g以下),SHAKE2000和DEEPSOIL、LSSRLI-1(频域)计算结果与实际记录差距可以接受,但烈度8度以上,计算出地表响应均较实际记录明显偏小,且随地震动强度增加差距急剧增大;硬场地中,无论何种烈度,SOILQUAKE16计算的地表加速度响应与实测相当,可体现出土层放大作用。 相似文献