9.21台湾集集地震中场地类别对地震动若干特性的影响

对9．21台湾集集地震主震的404组强震记录按照不同震中距和场地类别进行分组，然后对加速度水平分量和垂直分量的持时、峰值加速度、包络线、反应谱及其均方差作了，统计分析。结果表明，场地条件对不同分量加速度某些特征的影响较为显著，断层方向对地震动水平特性也有一定的影响。该结果对地震危险性分析以及结构抗震验算有一定参考价值。此外，对地震动三分量包络线的研究为三维地震动模拟提供了一定参考。     

场地条件对地震动持时的影响

本文通过美国强震记录,按照中国场地类别划分方法进行场地分类,研究不同类别场地条件对地震动持时的影响(70%能量持时)。分析表明,场地条件对持时的影响非常大,总体来说,随着震级的增大持时变长,在同一震级时,各类场地随震中距的的变化趋势差别较大,并且竖直向与水平向的变化趋势很相近。     

地震动强度对场地地震反应的影响

通过对场地地震反应的研究发现,地震动强度不同,同样的场地对地震动的影响也不同,得到的反应谱形状也不同。目前我国抗震设计规范中不同烈度下的设计反应谱形状完全一致,没有考虑地震动强弱对相同场地反应谱形状的影响。     

地震动加速度反应谱场地条件影响调整系数研究

场地条件对地震动特性影响显著,在抗震设计反应谱的确定过程中,需根据场地条件对加速度反应谱予以相应的调整。已有场地条件影响调整方案研究成果,均基于数值模拟或局部地区强震动记录统计,多数仅给出了峰值加速度PGA场地条件影响调整系数,对非线性的考虑缺乏观测数据依据。为此在全球强震动记录统计获得的PGA归一化加速度反应谱和日本钻井台阵记录获得的加速度反应谱平台值非线性衰减指数的基础上,结合钻孔模型数值模拟和近期研究成果,建立了考虑场地条件影响非线性的地震动加速度反应谱场地条件影响调整系数方案。     

根据场地条件确定地震动时程的方法

分析了现行的一些确定地震动时程的方法，利用文献的研究成果，提出了一种可较为充分考虑场地条件影响的确定输入地震动时程的方法。     

人工拟合地震动时程参数对场地反应的影响分析

采用目标谱拟合法人工合成地震动时程,拟合过程中对包络线参数进行定量的变化,进行土层地震反应分析.根据其对场地反应的影响,讨论时程参数对人工拟合地震动时程的影响规律,为场地抗震设防参数的选取提供依据.研究结果表明:t1、t2和c不同时,所拟合的地震动时程对土层地震反应结果有较大影响,其影响程度与土层结构关系密切.     

基于实测记录分析场地因素对海底地震动特性影响

目前基于海底实测记录的分析发现海底与陆地地震动特性存在明显差异,但难以进一步确定海底地震动特性的影响因素.在以往研究的基础上对比同次地震中相邻海底台站间地震动特性的差异,并分析造成差异的原因.以日本K-NET地震台网中6个海底强震台站及其相邻不同场地条件陆地台站监测的8次强震记录为研究对象,通过分析强震记录的峰值加速度...     

不同类别场地地震震动反应分析

基于GB50011-2001建筑抗震设计规范划分的4类场地，设计了115个一维成层场地，计算模型用场地地震反应分析的等效线性化波动分析方法，对场地地震反应进行了计算，找出了4类分类场地条件对场地地震动影响的特点及规律。得出对于Ⅲ类、Ⅳ类场地，当计算基底输入幅值较大时，地震动长周期成分十分丰富，短周期成分少的结论。     

场地条件对地表地震动特征的影响

以安徽省滁州市地震小区划场地为研究对象,基于ABAQUS显式有限元并行计算平台,采用大尺度二维精细化有限元非线性分析方法,研究了局部地质条件差异对场地地震效应的影响。结果表明：该场地地震动放大效应明显,河漫滩地表PGA放大效应尤为显著;相比一级阶地,河漫滩地表加速度反应谱谱形加宽,谱峰向长周期方向移动,移动幅度约为0．05～0．25S,相应的特征周期增大。地表加速度反应谱呈双峰甚至多峰特征,大尺度场地非线性有限元分析能定性反映出局部地质条件对场地地震效应特性的影响,可为城市地震小区划提供更为合理的科学依据。     

层状场地中透镜体对地震动影响的基本规律

本文采用有限元方法研究层状场地中透镜体对地震动影响的基本规律,分析层状场地与均匀场地的差别、含透镜体场地与不含透镜体场地对地震动影响的差别,以及透镜体埋深、宽度、厚度、刚度和输入波频谱等因素对地震动反应谱的影响.研究表明,层状场地与其等效的均匀场地有着显著的差别;透镜体的存在对地震动有显著的放大作用,该放大作用可达93.5%;由于入射波在透镜体周围的散射,会产生竖向加速度,且竖向加速度的短周期成分相对较多;透镜体埋深、宽度、厚度、刚度以及输入波频谱等因素对地震动反应谱具有重要的影响.     

GROUND MOTION CHARACTERISTICS OF GAOYOU-BAOYING M4.9 EARTHQUAKE

An M4.9 earthquake occurred at the junction of Gaoyou and Baoying on July 20, 2012. In this paper, 43 sets of strong motion records of the main shock are analyzed. With these data, we analyzed the characteristics of the peak ground motion value, attenuation relation, duration and acceleration response spectrum. We draw the peak acceleration contour map of the region near the epicenter. The contour line is smooth and the trend of long axis is northwest-southeast. Distribution of peak acceleration of the observed records is basically consistent with the real intensity distribution. Compared with the predicted result based on the seismic attenuation relation proposed by Yu Yanxiang and Wang Suyunon for eastern China and the Fifth-generation ground motion zonation map, the horizontal PGA and PGV of Gaoyou-Baoying earthquake are higher than the predicted results that are based on the model of Fifth-generation ground motion zonation map, while the PGV is similar with the predicted results which are based on Yu Yanxiang and Wang Suyun's model. We regressively analyzed the spatial-temporal change curves of the two types of relative ground motion durations. Compared with the predicted results proposed by Bommer et al. (2009) based on the NGA strong motion records, the durations of all the three components of this earthquake are higher. 10 typical recordings' acceleration response spectra with 5% damping are calculated, their peak periods are around 0.1~0.3s. The acceleration response spectrum of the station 32BYT, which has the largest amplitude, is considerably larger than the Chinese code design spectra, while it becomes notably smaller when the period is larger than 0.4s. Compared with the horizontal bedrock acceleration response spectrum predicted by the attenuation relationship for the eastern part of China, the observed response spectrum shape is similar with the predicted ones, while almost all the observed response spectrum values (except station 32YCT)are smaller than the predicted bedrock acceleration response spectrum. These phenomena suggest that this earthquake has a weak impact on the seismic fortification standards in this area. Using H/V single-station spectral ratio method, amplitude and site amplification effect of the two typical stations are calculated, and the results show the H/V values are obviously larger than that of ground microtremor. This suggests that the site of the station has obvious amplification effect on ground motion.     

HORIZONTAL-TO-VERTICAL SPECTRUM RATIO OF EARTHQUAKE GROUND MOTION FOR SITE CHARACTERIZATION

Nakamura's method, which uses a horizontal-to-vertical Fourier spectrum ratio of microtremor, has become popular to determine the predominant period and amplification of a site. In this study, this method is extended for earthquake ground motion recordings using new strong motion data recorded by JMA-87-type accelerometers. From the analysis of these accelerograms, horizontal-to-vertical Fourier spectrum ratios of a site for different earthquakes are also found to be stable irrespective of magnitude, distance and depth. To establish this fact, attenuation relations of velocity response spectra for horizontal and vertical components are derived for three damping ratios (0, 2 and 5 per cent) using the JMA data. Then the horizontal-to-vertical ratios of the velocity response spectra are obtained. The results show that the horizontal and vertical velocity response spectra are dependent on magnitude, distance and depth, but that their ratios are almost independent of magnitude, distance and depth. However, since the current data set consists of mostly intermediate to far field data, this observation should be limited to records of these distance ranges. Introducing station coefficients, representing site amplification, to this relation yields the value comparable to the horizontal-to-vertical Fourier spectrum ratio at a specific site. The stability of the spectrum ratio is explained by the transfer function between the ground surface and stiff-soil outcrop due to S-wave propagation. These results suggest that site amplification characteristics can be evaluated by one-point two-component surface recordings of earthquake ground motion, in a similar manner as proposed by Nakamura for microtremor. © 1997 by John Wiley & Sons, Ltd.     

黄土地区场地的地震地面运动参数特征

结合近年来中国西部黄土地区城市或厂矿企业地震小区划和岩土地震工程的最新研究成果,归纳分析了黄土的波速特征和非线性特征．结合实例阐述了影响黄土地区地震地面运动参数的主要因素．     

ANALYSIS ON THE CHARACTERISTICS OF DURATION AND PERIOD OF GROUND MOTION OF THE LUSHAN EARTHQUAKE BASED ON THE STATION RECORDS

Based on 60 records from the 20 stations within 100km to the epicenter of Lushan earthquake, the predominant period, period of peak response spectrum, duration of ground motion, and source duration are investigated. By the study, we conclude that within 100km to the epicenter, the scope of predominant period is 0.013~0. 275s in EW, NS and UD direction; the scope of period of peak response spectrum for 5% damping ratio is 0.03~0.65s; the scope of 90% ground motion durations is 5. 1~35. 9s; the scope of averaging source duration is 6.41 (EW), 6.05 (NS) and 5.47s (UD). Furthermore, based on the ground motion duration calculated by 20 stations dada, the predictive curve and equation of ground motion duration is regressed and compared with the recent equation of ground motion duration by Bommer (2009). We find that the ground motion durations of most stations are larger than predictively mean value by Bommer (2009), which means that the source effect of Lushan earthquake is relatively larger. Lastly, by the contour figure of ground motion duration and source duration, we conclude that the directivity character of duration is relatively apparent in NE direction. The relatively larger source duration and ground motion duration in NE direction indicate more energy release in the main shock of Lushan earthquake, which perhaps causes the relatively less aftershocks in this direction. The duration has no hanging wall effect, which perhaps results from the blind-reverse fault structure of Lushan earthquake.     

921台湾集集地震近断层强震记录的基线校正

分析了 92 1台湾集集地震近断层强震记录基线偏移的原因 ,指出强震仪的倾斜是导致近断层强震记录基线偏移的主要原因 ,并提出了相应的基线校正方法 ,比较好地消除了近断层强震记录的基线偏移。根据作者的研究 ,原始记录经基线初始化之后 ,基线偏移对反应谱在工程界最感兴趣的0 .1～ 6s周期范围内的影响是很小的 ,对PGA的影响也很小 ,但对PGV ,PGD和永久位移 (D -last)的影响则相当大。因此 ,对近断层强震记录进行基线校正具有重要的意义。文中所提出的基线校正方法 ,可应用于对 1999年土耳其地震及 92 1台湾集集地震余震产生的近断层强震记录和其他近断层强震记录的基线校正     

合成地震动方法用于研究强地震动长周期特性的探讨

合成地震动一直是地震学研究中一个非常跃的领域。针对２长周期结构物抗震设计缺少宽频带强震记录的现状,利用“反射率法”和“围道积分法”等合成地震动方法对地震动长周期特性进行了探讨。结果表明：合成地震动方法是研究地震动长周特性的一个有效方法;在地震动长周期成份中,面波起着重要作用。因此长周期结构物的抗震设计必须考虑面波的影响。     

山东地区地震动峰值加速度场地效应的定量分析

地震动峰值加速度场地效应研究在地震区划、地震预警及震害快速评估等方面有着广泛的应用前景。收集整理了2004—2012年山东地区2630个地震安全性评价工程的相关资料,包括场地类型、覆盖层厚度、钻孔剪切波速、自由基岩和土层表面地震动峰值加速度计算结果。利用上述资料计算得到了每个工程场地的场地效应放大因子和场地指数;采用回归分析方法,对场地效应放大因子与基岩峰值加速度、场地指数之间的关系进行了研究并得出了三者之间的定量统计表达式,实现了场地效应放大因子的连续取值。结果表明,场地效应放大因子与基岩峰值加速度之间为线性负相关,与场地指数之间为非线性相关。     

台湾集集大地震及其余震的长周期地震动特性

用丰富的高质量数字强震记录对台湾集集大地震及余震的长周期地震动特性进行了研究. 本文主要研究了长周期地震动的强度随震级、距离及场地条件的变化情况;同时对近断层的长周期地震动特性进行了分析. 结果表明,集集大地震及余震的长周期地震动反应谱的形状主要受场地条件和震级控制（D+E类场地的反应谱要比B+C类的宽,震级大的反应谱要比震级小的宽）,而受距离影响并不显著;近断层长周期地震动明显受断层活动特性影响:上盘的长周期地震动比下盘的强,北部的比南部的强.      

场地组合土对输入地震动的影响

本文综述了场地条件对输入地震动的影响特征及国内外研究现状，着重讨论了场地土组合效应，覆盖厚度对地震动的影响。研究结果表明目前场地评价仅以场地的平均指标作为场地的评估标准不尽合理，应考虑场地土的组合效应，上覆地层的厚度及下部软夹层的影响。     

台湾集集地震近场地震动的上盘效应

1999年9月21日（当地时间）台湾集集7.6级地震是一个逆断层型地震．用回归分析法对台湾集集地震的加速度峰值数据进行分析，得出了这次地震的水平与垂直向的加速度峰值衰减关系．从残差分布上看，位于断层上盘和下盘上的加速度峰值与从衰减关系所得到的结果相比存在不同的系统偏差，断层上盘地表的加速度峰值较高，而下盘地表的加速度峰值较低．从这次地震的加速度峰值分布等值线图上也可以看出，加速度峰值的分布相对于断层呈现明显的不对称性，上盘衰减较慢而下盘衰减较快．在近断层强地面运动研究、地震危险性分析、设定地震研究与震害预测等工作中，应考虑可能地震的震源机制特点，以便使所用的衰减模型更能反映不同地震环境地区的地震动分布特征．