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以近40年来世界范围内发生的20次地震总计800条水平地震记录为基础,从加速度反应谱入手,研究震中距、PGV/PGA比值及震级对水平加速度反应谱特性的影响,提出了一种同时考虑震中距、PGV/PGA比值及震级3个指标的近场地震动选取方法。然后对选取的脉冲型水平地震记录作加速度反应谱研究场地类别、震级、PGV/PGA比值等因素对脉冲型水平地震动反应谱特性的影响。研究表明:(1)PGV/PGA>0.2、震中距D<20 km、6.50.2、震中距207.0作为中远场脉冲型地震动的选择原则需要进一步研究。(3)震级M_w>7.0时脉冲型地震动反应谱谱值在中长周期范围内明显增大。(4)PGV/PGA>0.2时脉冲型地震动平均谱谱值在中长周期范围内明显增大。 相似文献
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地震动衰减关系作为抗震救灾的重要依据,一直都是现代地震学研究的重点之一.本研究使用南北地震带南段区域2009—2016年共217个地震事件获得随震中距变化的水平向地震动峰值速度(PGV)和地震动峰值加速度(PGA)经验衰减关系,并计算场地响应.研究结果显示PGV衰减关系的拟合效果较PGA更好,两者的距离衰减系数会随事件矩震级增大呈线性减小;相较于大矩震级事件,中矩震级事件在近场可能产生较衰减关系理论值更大的PGV和PGA,同时衰减关系的拟合标准差会随事件矩震级的增大而减小.进行场地响应校正后的PGV和PGA更加符合经验衰减关系,PGA的场地响应影响较PGV更强但两者的趋势一致,并与该区域前人计算得到的地壳Qs值分布对应,表明地壳介质放大或压制地震波振幅和其传递地震波能量的能力是相关联的.本文结果一定程度上揭示了南北地震带南段的地震动强度衰减特征,为未来中国西南部的抗震减灾工作提供了重要的参考. 相似文献
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《内陆地震》2021,(1)
将布置在南天山地区的71个强震动台站从2007~2018年记录到的732组强震动加速度记录按照不同震级、震中距和场地类别分组,对加速度水平向分量和垂直向分量的加速度峰值(PGA)和放大倍数谱(β谱)及其特征周期(T_s)和持时进行了统计分析。结果表明:(1)三分量PGA随震中距的变化规律符合已有的衰减关系。地震波的传播规律和特殊的地壳构造会影响同类震级和场地条件下的PGA大小。场地条件对水平向不同分量的PGA的影响有不同的特点或规律;(2)地震动垂直向分量T_s总体上小于水平向分量T_s。随场地依次变软,水平向分量T_s逐渐增大;而垂直向分量T_s随场地类别的变化规律不明显。随震级和震中距的增大,T_s有逐渐增大的趋势;(3)场地类别对地震动水平向分量的持时有一定的影响,随着场地依次变软,持时会有些增大,对于垂直向分量,则没有明显的规律。 相似文献
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为了研究2021年5月22日玛多MS 7.4地震地震动特征,收集16个强震台的峰值加速度和其中9个台的强震波形数据,利用峰值加速度衰减及反应谱等分析玛多MS 7.4地震强震动特征。结果表明,多数台站的PGA值都随震中距的增大而平稳下降,PGA的衰减特征与青藏区衰减关系间有较好的一致性;土层台与基岩台的加速度反应谱明显不同,震中距越小,短周期高频成分越多,衰减越快,震中距越大,长周期高频成分越少,衰减越慢;加速度反应谱的水平向与竖向比值曲线在4 s内呈现两峰一谷的现象,初步认为,距发震断层较近的野马滩1号大桥所受到的破坏及水泥路面的明显错断受水平向地震动作用的影响更大。 相似文献
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利用《中国地震动参数区划图》采用的地震动参数衰减关系,以及《中国地震动参数区划图》中地震动峰值加速度和地震动加速度反应谱特征周期反推不同设防烈度和设计地震分组对应的震级和震中距,再根据《建筑抗震设计规范》中各设防水准的峰值加速度确定对应的震级和震中距,进而根据地震动强度包线参数与震级和震中距关系计算地震动强度包线参数的取值,为基于强度包线函数生成人工地震动提供参考,并讨论强度包线参数的取值规律:(1)随着设防烈度的提高,加速度时程曲线上升段持续时间t1和平稳段持续时间ts减小,下降段衰减指数c增大;(2)随着地震水准和设计地震分组的提高,加速度时程曲线上升段持续时间t1和平稳段持续时间ts增加,下降段衰减指数c减小;(3)在生成人工地震动时,除考虑峰值加速度和设计地震分组影响外,还需要考虑设防烈度影响。 相似文献
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地震动峰值参数衰减规律的研究 总被引:15,自引:1,他引:15
震级和地震波传播途径均有测量误差和不确定性。本文考虑震级和距离的不确定性,用作者提出的回归多随机变量间相关关系的一致加权最小二乘法,对地震动水平峰值加速度(PGA)、速度(PGV)和位移(PGD)的衰减关系进行了研究,在衰减模型中考虑了地震动的近场距离饱和与震级饱和特性。研究结果表明,考虑震级和距离的随机性后,地震动的距离与震级标定系数比常规方法增大16—28%,大震的地震动估计值及小震近场的地震动估计值均高于用常规方法得到的结果;高频地震动具有明显的近场距离与震级饱和特性,且距离饱和范围随震级的增大而加宽;场地条件对地震动衰减规律有明显影响,同时这一影响又同距离和震级密切相关。本文预测结果与新近发生的三大地震(M_s=8.1,7.8,7.1)的观测资料很吻合。 相似文献
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水平向加速度峰值比为两条水平向加速度峰值的较大值与较小值的比值;竖向与水平向加速度峰值比为竖向加速度峰值与两条水平向加速度峰值的较小值的比值。以2 129次破坏性地震的156 783组地震动加速度记录为基础,研究水平向、竖向与水平向加速度峰值比值的统计分布特征,对加速度记录按照震中距、震级和震源深度进行分类统计分析。统计分析结果表明:水平向加速度峰值比总体平均值为0.83,水平向加速度峰值比≤0.85的累积概率为63%;竖向与水平向加速度峰值比总体呈现极值Ⅱ型分布特征,竖向与水平向加速度峰值比总体平均值为0.44,竖向与水平向加速度峰值比≤0.65的累积概率为92%。水平向加速度峰值比随震中距的增大而增大,竖向与水平向加速度峰值比随震中距的增大而减小。竖向与水平向加速度峰值比随着震级的增大而增大;在大震(7相似文献
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潜在震源区地震活动性参数、地震动衰减关系对地震危险性分析结果至关重要。以中国第五代地震动区划图潜在震源区划分方案为基础,采用2类震级分档分别建立自编及五代图潜在震源区空间分布函数,收集4组青藏高原及周缘地区地震动衰减关系,采用不同组合对青藏工程走廊沿线的81个场点进行概率地震危险性分析计算,得到50年超越概率10%(地震重现期475年)的各场点基岩地震动峰值加速度(PGA),并转换为一般场地(Ⅱ类)PGA,对计算结果进行对比分析,并与第五代地震动区划图归档上下限值进行比较。结果显示:采用我国西部地区地震动衰减关系计算得到的PGA最大,采用云南地区地震动衰减关系得到的PGA最小,采用川藏地区及青藏高原东北缘地震动衰减关系时居中;在同一地震动衰减关系下,采用自编空间分布函数计算得到的PGA普遍略大于采用第五代图空间分布函数时;在震级上限为8.5的潜在震源区及附近地区,潜在震源区空间分布函数震级分档对计算结果有显著影响。综合分析表明,采用自编Ⅱ型震级分档空间分布函数方案与川藏地区地震动衰减关系组合方案的计算结果最为理想。最后,采用该组合方案对青藏工程走廊50年超越概率10%的基岩场地PGA及一般场地PGA进行了区划。 相似文献
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2014年云南鲁甸Ms6.5地震龙头山台站记录到东西向峰值加速度948.50 Gal的罕见大峰值记录(简称"龙头山EW记录"),震中烈度高达Ⅸ度,而震中距大于10 km以后,峰值加速度和烈度均迅速减小。为研究这一现象,利用时-频反应谱对震中距45 km以内的6个台站记录进行了时频特性分析,发现龙头山EW记录幅值区域相对集中且谱值很大,沿持时轴连续分布两个幅值带,高频和低频成分均远大于其拓展设计反应谱,据此设计的自振周期处于0.4~0.8s的结构将遭受严重累积破坏。另外5个台站时-频反应谱值小且覆盖区域狭小,作用时间短,无论在自振周期轴方向,还是持时轴方向均远小于其拓展设计反应谱覆盖区域,结构不会发生破坏或仅发生可修复的轻微破坏。震害调查结果与时-频反应谱分析结果相符,证明鲁甸地震小震级、高烈度、大灾害的特点与龙头山EW罕见大峰值记录的时频特性有着密切关系,时-频反应谱有利于用来分析结构破坏机理,具有研究的理论意义与应用价值。 相似文献
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区域性场地V_s30及峰值加速度放大系数估算方法 总被引:1,自引:0,他引:1
地震动速报评估方法中常常考虑场地的影响,为了提高地形坡度模型的区域性地表30m的平均剪切波速Vs30估算精度,本文提出了基于工程钻孔资料的Vs30的修正方法。通过计算实际钻孔的Vs30值与坡度模型估算的Vs30值之间的残差,分析了残差的空间变化趋势,利用克里金插值对所研究区域的Vs30残差趋势面进行插值,并与估算的Vs30进行空间叠加,实现了Vs30的修正。选取K-net和Kik-net台网中台站的剪切波速资料和强震记录回归了峰值加速度放大系数与场地Vs30的经验关系,将其应用于基于ShakeMap框架的地震动快速评估系统绘制了汶川地震影响区域的基岩和地表加速度峰值,分析场地条件对于地震动的实际影响,结果表明区域性场地Vs30及峰值加速度放大系数估算方法具有一定的适用性。 相似文献
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集集地震等震线和PGA、PGV等值线关系的研究 总被引:1,自引:1,他引:0
本文通过比较集集地震的等震线、加速度和速度等值线的相似度,发现加速度等值线和烈度等震线有更好的相似性,后通过数学分析也得到了相同的结果。由于集集地震中受损的大部分是短周期脆性结构,本文的研究结果可以说明:和峰值速度相比,地震动峰值加速度能够更好地体现地震动对脆性结构的破坏势。峰值速度也和震害有一定的相关性,但对于脆性结构它所体现的破坏能力不如峰值加速度。 相似文献
14.
Liquefaction exclusion criteria, based on peak ground acceleration (PGA) threshold value, are often included in seismic codes and recommendations. In this note, a rationale approach for setting the threshold is presented and a PGA limit of 0.09 g was found. This value is derived from a statistical analysis of the background data used to create some common verification charts for the liquefaction problem. 相似文献
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In this paper, empirical ground-motion models for the vertical and average horizontal components of peak ground-motion and
acceleration response spectra from shallow crustal earthquakes are derived using near-source database. These attenuation relationships
were derived using a worldwide dataset consisted of corrected and processed accelerograms of 678 strong-motion records recorded
with 60 km of the rupture plane of earthquakes between Mw 5.2 and 7.9. Ground motion models are functions of earthquake mechanism, distance from source to site, local average shear
wave velocity, nonlinear soil response, sediment depth, depth-to-top of the rupture, hanging wall effects and faulting mechanism. 相似文献
17.
PGA and structural dynamics input motion at a given site 总被引:1,自引:1,他引:0
The computation of the representative ground motions, to be used as input for the dynamic analyses of a structure at a particular
site, can be approached by several methods. The choice of the approach depends on two factors : the data available and the
type of problem to be solved. This paper reports the experience of the authors in approaching a specific case study: the Southern
Memnon Colossus, located in Luxor, Egypt. The results are of interest when the hazard analysis estimation in developing countries
and the safeguard of cultural heritage are concerned. Monuments have to be treated as important structures, due to their historical
and economical value. Hence, standard procedures of probabilistic seismic hazard analysis for the seismic classification of
common buildings have to be disregarded. On the other hand, the consequences of the collapse of a monument are not comparable
to those related to structures such as nuclear power plants and large dams, for which the deterministic seismic hazard analysis
provides a straightforward framework for evaluation of the worst case ground motions. An “intermediate” approach, which requires
a lower amount of input data with respect to the deterministic one, is adopted. Its stochastic component can capture significant
characteristics of earthquakes, primarily the frequency contents which depend on the magnitude (often referred to as the earthquake
scaling law).
Supported by: European Union-ICA3-1999-00006 相似文献
18.
A recently compiled, comprehensive, and good-quality strong-motion database of the Iranian earthquakes has been used to develop local empirical equations for the prediction of peak ground acceleration (PGA) and 5%-damped pseudo-spectral accelerations (PSA) up to 4.0 s. The equations account for style of faulting and four site classes and use the horizontal distance from the surface projection of the rupture plane as a distance measure. The model predicts the geometric mean of horizontal components and the vertical-to-horizontal ratio. A total of 1551 free-field acceleration time histories recorded at distances of up to 200 km from 200 shallow earthquakes (depth < 30 km) with moment magnitudes ranging from Mw 4.0 to 7.3 are used to perform regression analysis using the random effects algorithm of Abrahamson and Youngs (Bull Seism Soc Am 82:505–510, 1992), which considers between-events as well as within-events errors. Due to the limited data used in the development of previous Iranian ground motion prediction equations (GMPEs) and strong trade-offs between different terms of GMPEs, it is likely that the previously determined models might have less precision on their coefficients in comparison to the current study. The richer database of the current study allows improving on prior works by considering additional variables that could not previously be adequately constrained. Here, a functional form used by Boore and Atkinson (Earthquake Spect 24:99–138, 2008) and Bindi et al. (Bull Seism Soc Am 9:1899–1920, 2011) has been adopted that allows accounting for the saturation of ground motions at close distances. A regression has been also performed for the V/H in order to retrieve vertical components by scaling horizontal spectra. In order to take into account epistemic uncertainty, the new model can be used along with other appropriate GMPEs through a logic tree framework for seismic hazard assessment in Iran and Middle East region. 相似文献
19.
K. Abdrakhmatov H.-B. Havenith D. Delvaux D. Jongmans P. Trefois 《Journal of Seismology》2003,7(2):203-220
New probabilistic seismic hazard and Arias Intensity maps have beendeveloped for the territory of the Kyrgyz Republic and bordering regions.Data were mainly taken from the seismic catalogue of Kyrgyzstan and partlyfrom the world seismic catalogue. On the base of seismicity and activetectonics, seismic zones were outlined over the area. For these,Gutenberg-Richter laws were defined using mainly instrumental data, butregarding also historical events. Attenuation of acceleration inside the targetarea could not be determined experimentally since existing strong motiondata are insufficient. Therefore, empirical laws defined for other territories,principally Europe and China, were applied to the present hazardcomputations. Final maps were calculated with the SEISRISKIII programaccording to EUROCODE8 criteria, i.e. for a period of 50 years with90% probability of non-exceedance. For long-term prediction, 100 yearsmaps with 90% probability of non-exceedance have been developed. Theprocedure used for seismic hazard prediction in terms of PGA (PeakGround Acceleration) was also applied to Arias intensities in order to beable to define regional seismogenic landslide hazard maps. 相似文献
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The estimated peak ground acceleration (PGA) for a specific region cannot always be determined reliably from compilation and statistical analyses of instrumental data acquired because of the relatively short time window available for such an approach, typically up to 100 years of instrumentation. We propose a complimentary approach for estimating PGA in a specific region, through back analysis of seismically driven column collapse in historic monuments, using the numerical discrete element discontinuous deformation analysis (DDA) method. Preliminary threshold ‘paleo PGA’ values thus obtained constrain the lower bound of PGA estimates using information from a much broader time window, in the case study presented here of approximately 1200 years. Copyright © 2009 John Wiley & Sons, Ltd. 相似文献