相邻地形对地震动特性的影响分析

基于采用透射人工边界的显式动力有限元方法,研究了相邻凸起地形对地震动反应谱特性的影响,分析了相邻凸起之间距离的变化对地形效应的影响。研究结果表明:1与单一凸起地形对地震动的放大效应相比,相邻地形的存在对地震动反应谱谱比曲线的形状影响不大,但对谱比的值具有较大影响,而且其影响程度的大小与地表观测点的位置有关;2相邻凸起地形的存在对凸起平台段中点地震动高频成分的放大效应影响较大,随着相邻凸起之间距离的增加,该影响逐渐减弱,多个相邻凸起构成的组合地形对地震动的放大效应逐渐接近单一凸起地形。     

山谷地形对入射SV波地震反应分析

基于黏弹性人工边界的显式动力有限元方法,研究了突出平台状山谷地形场地的地形效应,分析了山谷地形对地表地震动的影响.结果表明:(1)沿着地震动输入方向地表反应较其他方向上的反应强烈;(2)与单一凸起山体地形对地表地震动的放大效应相比,相邻地形的存在对地表地震动位移傅里叶谱谱比曲线的形状影响不大,但是对PGD有着较大的影响...     

凸起地形对地震动特性的影响

采用基于ABAQUS平台的显式有限元动力学分析方法,结合人工黏弹性边界理论,研究了局部凸起地形对地震动特性(包括反应谱、峰值加速度、峰值速度和峰值位移等)的影响,分析了台地宽度对地形放大效应的影响.结果表明:凸起地形平台段空间点地震动受地形效应影响较大,在零阻尼条件下,其谱比曲线呈双峰特点,.8—0.9s的中长周期段谱比达到一个较大值1.6,在0.08—0.09s的高频段谱比超过2.0,且最大值出现在平台中点;对于凸起地形斜坡段,在大部分周期点处,顶点的谱比高于其它斜坡点,而且在周期超过0.4s的频段,斜坡段观测点的谱比表现出较明显的规律性,即越靠近顶点的观测点,其谱比值越大;坡底段地表不同观测点的谱比基本在脚点与计算边界点(人工边界点)对应的谱比值之间变化,在不同的频段均表现出较明显的规律性.凸起地形平台段宽度对地震动高频成分的放大效应具有较大影响,但只局限在一定的宽度范围内,随着宽度的增大,其对地形放大效应的影响逐渐减弱. 此外,台地宽度的变化对地震动峰值加速度的放大效应有一定的影响,而对峰值速度、峰值位移的放大效应的影响则不明显.      

坡地地形对地震动特性的影响分析

采用有限元有限差分方法,结合人工透射边界理论,研究局部坡地地形对地震动特性的影响,分析坡高、坡角对地形放大效应的影响.研究结果表明:坡地地形斜坡段各点反应谱谱比最大值沿坡高逐渐增大,坡脚点对地震动反应谱谱比呈缩小效应;坡底段各点反应谱谱比接近1;坡起平台段空间点受地形效应的影响较大;坡高和坡角对地形效应的影响较明显,当...     

SH波入射时凸起场地的地形和土层放大效应

基于间接边界元法,首先采用Ricker波作为输入波,分别研究了SH波入射时均匀半空间凸起场地、两侧含覆盖土层的岩质凸起场地、匀质土质凸起场地、异质土质凸起场地的波传播特征,同时比较了凸起地形与土层对Ricker波的放大效应,研究表明,覆盖土层能增强场地对地震动的散射和反射效应并延长地震动持时,土层对地震动的放大效应比凸起地形对地震动的放大效应更为显著。在此基础上进一步以Taft波、El Centro波和天津波作为输入地震动,研究了异质土质凸起场地的地震响应,就本文所考虑的模型而言,这3种地震动输入下得到的凸起场地对地表加速度反应谱峰值的放大幅度分别为102.9%、149.9%和186.7%,大大高于建筑抗震设计规范中为考虑地形效应而对水平地震影响系数最大值进行增幅的取值。     

SV波斜入射下凸起地形对地震动特性的影响分析

针对10种不同坡角的凸起地形,采用基于透射边界的有限元-有限差分计算方法,研究了局部凸起在SV波斜入射时,地震动峰值加速度放大倍数和反应谱谱比随入射角度的变化规律。结果表明:①地震波以一定的角度斜入射时,地表大部分观测点的峰值加速度放大倍数大于垂直入射的情况;②在计算模型宽高比一定的情况下,最不利入射角度与坡角有一定关系,且地表最不利位置随坡角增大由凸起台地边缘向中心移动;③入射角度对凸起地形地震反应谱特性的影响十分显著,不但影响谱比的幅值,也影响谱比曲线的形状,斜入射时各关键节点大部分周期点的谱比值大于垂直入射,入射角度对反应谱中的高频成分影响较为显著,而对长周期成分影响不大。     

山地与平原地形对地震动影响的对比分析

山地和平原地形在破坏性地震中对震害和地震动有很大影响,不同地形对地震动有不同的地形效应。为研究山地和平原地形对地震动的影响规律,基于集集地震后续M L6.6余震的强震观测记录,对位于不同地形且与震中位于同一直线上的四个强震台记录处理计算,从波形特征、频谱分析、加速度反应谱计算、与规范谱比较等方面进行对比分析,完成长周期地震动反应谱分布的计算。研究表明,山地地形对地震动的高频成分有地形放大效应,沉积平原对地震动的低频长周期部分有放大作用,并且长周期反应谱的峰值区域始终位于沉积平原中部。平原上强震记录产生的长周期放大系数谱已超出规范谱,沉积平原上长周期建筑的抗震设防应引起重视。     

局部地形对入射P波谱特性的影响分析

利用显式有限元有限差分方法研究了局部突出平台状粘弹性场地的地形影响,比较了高宽比不同、体波入射角度不同时谱特性的差异,分析了相邻地形的存在对地面运动谱特性的影响。研究结果表明,对于局部突出地形,高宽比和体波入射角度对地震动的谱特性有较大影响,入射角度的影响更为显著;相邻地形的存在使地面运动进一步放大。     

复杂场地对地震波传播的影响

本文基于两相介质动力学方程组，利用显式集中质量有限元结合透射人工边界，研究了复杂介质情况下盆地和凸起地形对地震波传播的影响。研究表明，控制波在盆地传播的主要因素有沉积层和基岩的剪切波速比、沉积层的厚度、饱和度。欠饱和土的基本共振频率小于单相土和饱和土的基本共振频率。凸起地形对地震动有放大作用，但是在山脚附近有抑制作用。饱水土的地形效应要比单相土的地形效应更加明显。山间峡谷的放大作用和两山间的距离有密切的关系。     

山脊地形效应的强震动观测研究

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。     

基于台阵记录的局部场地条件地震动效应分析

基于自贡西山公园山体地形影响台阵和唐山响堂土层场地台阵的地震动记录, 采用互相关分析、 相干系数分析、 傅里叶谱比法和考虑相干系数的傅里叶谱比法, 对比研究了山体地形和土层场地两种局部场地条件对地震动的影响。 结果表明, 局部场地条件下的地震动效应与地震波的频率成分相关。 低频地震波由于其波长较长, 易于穿过土层场地和山体地形发生衍射, 从而导致二者地震动显著相关, 但二者在该频段的地震动场地效应差异不大; 较高频率的地震波由于其波长较短, 更容易受土层场地条件和山体地形条件的影响, 造成二者地震动场地效应差异显著。 此外, 由于山体顶部的尺寸变小, 低频长波长地震波容易在该位置发生衍射, 导致山顶周边测点的地震动相关性增加, 而较高频率的地震波则容易引起山顶局部场地发生共振效应。 山体地形上相邻位置的地震动差异一般较大, 相关性较低, 这与山体地形不同位置的几何形状对较高频率的地震波影响有关; 山底基岩的地震动受山体地形的影响较小, 该位置的地震动效应机制尚需作进一步研究。      

A Study on the Influencing Factors on Ground Motion in a Valley Site

A trapezoid valley site is chosen as a research site, and according to numerical models based on orthogonal design, the factors influencing ground motion in the valley site are studied with two-dimensional finite difference method. The influencing factors are ranked, and then the calculation results are verified by ground motion analysis. The conclusions are as follows: there are four factors that have important effects on ground motion of trapezoid valley sites, but the effects are different as the location of sites changes, the influencing factors rank differently with different site locations;The ranking of the influencing factors is the same for all the sites located within a distance of 40m from the valley''s side, among them, the most effective one is the valley slope angle ranks,followed by depth-to-width ratio, overburden thickness, at last the input ground motion intensity. The impact of the factors on surface ground motion is roughly the same in the valley sites within a certain distance to the valley side,and the geometric parameters of the valley terrain play a greater part in influencing ground motion. With the increase of distance away from the valley''s side, the ranking of the influencing factors also changes, the rating of slope angle moves backward, the ranking of the input ground motion and overburden thickness move ahead. The effect of valley geometric parameters on ground motions is gradually weakened, but the effect of other two influence factors are gradually increased, similar to cases of a horizontal layered site. Strong motion records in Anning River valley site were analyzed,and the results show that the valley topography has a significant amplification effect on ground motion, and that the numerical results of this paper are credible.     

低山丘陵地形效应的三维有限元模拟

山地丘陵地形对地震动的分布有重要的影响,研究地形效应,有利于充分认识地震灾害风险,为减轻灾害损失做好防御措施。基于实际地形建立自贡西山公园观测台阵所在山体的三维有限元模型,研究开发黏弹性人工边界和SH波垂直入射前处理程序,开展动力学数值模拟;数值模拟结果与实际记录进行对比,并验证模型的合理性;研究分析低山丘陵山体对地震动强度及空间分布影响,以及峰值加速度与入射波频率、高程、坡度的关系。结果表明：低山丘陵山顶位置地震动峰值放大明显,而山脚凹陷位置地震动峰值存在削弱现象;地形效应与输入地震动频率密切相关,不同主频的输入地震动所造成的地表峰值加速度分布不同;较高主频的地震动可以凸显地形细节的影响;地表峰值加速度与高程具有较好的正相关关系,与坡度的相关关系较弱。综合高程和坡度拟合峰值加速度的效果优于仅使用高程或坡度的拟合,二元三次多项式拟合效果较好,可用于定量描述地形放大系数随高程和坡度的变化。     

Effects of three-dimensionality on seismic response of Gaussian-shaped hills for simple incident pulses

In this paper the boundary element algorithm which uses the time-convoluted traction kernels is applied to a numerical parametric study on the seismic behavior of three-dimensional Gaussian-shaped hills subjected to vertically propagating incident waves. All calculations were executed in the time-domain and the medium was assumed to have a linear elastic constitutive behavior. Results are discussed in both time and frequency domain with respect to the dimensionless parameters. It was shown that wave length and site geometry, including shape and dimension ratios and, to some extent, wave type are the key independent parameters governing hill amplification behavior. Comparing two- and three-dimensional hills with similar shape ratios, two-dimensional hill had greater characteristic periods, where the three-dimensional hill had greater maximum amplification potential. Three-dimensionality has a strong effect on the seismic responses of the hill; however the rate of seismic response variation with the three-dimensionality factor depends on the shape ratio. It was shown that two-dimensional behavior was dominant in low height three-dimensional hills, however, as the shape ratio increased, three-dimensionality effects appeared and the seismic response of the hill tends toward the axisymmetric three-dimensional hill.     

Scattering of anti-plane (SH) waves by a semi-elliptical hill: II—deep hill

The ground motion and wave propagation resulting from the scattering of anti-plane (SH) waves by a deep semi-elliptical hill on an elastic half-space are investigated. The solution is the closed-form one based on the method of wave-function expansion, and the expansion of elliptical sine and cosine over the half-range [−π/2, π/2]. The analysis shows that the interference of ground motion depends on several factors such as frequency of the incident waves, incident angle, and the aspect ratio of elliptical hills. Similar to part I: Shallow Hill, numerical results when semi-elliptical tends to semi-circular are compared with the work done by Lee et al. [17].     

Seismic analysis of semi-sine shaped alluvial hills above subsurface circular cavity

In this study, a seismic analysis of semi-sine shaped alluvial hills above a circular underground cavity subjected to propagating oblique SH-waves using the half-plane time domain boundary element method (BEM) was carried out. By dividing the problem into a pitted half-plane and an upper closed domain as an alluvial hill and applying continuity/boundary conditions at the interface, coupled equations were constructed and ultimately, the problem was solved step-by-step in the time domain to obtain the boundary values. After solving some verification examples, a semi-sine shaped alluvial hill located on an underground circular cavity was successfully analyzed to determine the amplification ratio of the hill surface. For sensitivity analysis, the effects of the impedance factor and shape ratio of the hill were also considered. The ground surface responses are illustrated as three-dimensional graphs in the time and frequency domains. The results show that the material properties of the hill and their heterogeneity with the underlying half-space had a significant effect on the surface response.

     

地铁隧道群对地震动的放大作用

本文采用有限元方法在时域内研究了基岩上均匀场地中隧道群对地震动的放大作用,分析了隧道间距、人射地震波频谱等因素对隧道群附近地表地震动反应谱的影响.研究表明,隧道群对地震动具有显著的放大作用,放大作用的大小与隧道间距和人射地震波频谱有着密切关系;隧道之间存在相互作用,加速度峰值的最大值多大于单隧道情况,且水平加速度峰值的...     

层状半空间中周期分布凸起地形对平面SH波的散射

提出了一种新的以层状半空间中周期分布斜线荷载动力格林函数为基本解的间接边界元方法,研究了周期分布凸起地形对平面SH波的散射问题.方法将散射波场分解为凸起内部散射波场和凸起外部散射波场.凸起内部散射波场通过在凸起闭合边界上施加虚拟斜线荷载产生的动力响应来模拟,而凸起外部散射波场则通过在凸起与半空间交界面上施加虚拟周期分布斜线荷载产生的动力响应来模拟.周期分布斜线荷载动力格林函数的引入,使得本文方法仅需针对一个凸起进行边界单元的离散和求解,便可完成问题的求解,避免了通过截断无限边界求解而引入的误差,方法具有较高精度的同时显著降低了求解自由度.文中通过与已有结果的比较,验证了方法的正确性,并以均匀半空间和基岩上单一土层中周期分布凸起为例进行了数值计算分析.研究表明,凸起间距对凸起地形间的动力相互作用有着显著的影响,同时层状半空间中周期分布凸起地形对SH波的散射与均匀半空间情况也有着显著的差别.

     

Influence of ground motion spatial variation,site condition and SSI on the required separation distances of bridge structures to avoid seismic pounding

It is commonly understood that earthquake ground excitations at multiple supports of large dimensional structures are not the same. These ground motion spatial variations may significantly influence the structural responses. Similarly, the interaction between the foundation and the surrounding soil during earthquake shaking also affects the dynamic response of the structure. Most previous studies on ground motion spatial variation effects on structural responses neglected soil–structure interaction (SSI) effect. This paper studies the combined effects of ground motion spatial variation, local site amplification and SSI on bridge responses, and estimates the required separation distances that modular expansion joints must provide to avoid seismic pounding. It is an extension of a previous study (Earthquake Engng Struct. Dyn. 2010; 39 (3):303–323), in which combined ground motion spatial variation and local site amplification effects on bridge responses were investigated. The present paper focuses on the simultaneous effect of SSI and ground motion spatial variation on structural responses. The soil surrounding the pile foundation is modelled by frequency‐dependent springs and dashpots in the horizontal and rotational directions. The peak structural responses are estimated by using the standard random vibration method. The minimum total gap between two adjacent bridge decks or between bridge deck and adjacent abutment to prevent seismic pounding is estimated. Numerical results show that SSI significantly affects the structural responses, and cannot be neglected. Copyright © 2010 John Wiley & Sons, Ltd.