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中外烈度表“人的感觉”和“器物的反应”对比研究 总被引:2,自引:0,他引:2
随着震害经验的积累以及人们对地震认识的深化,不断修改烈度标准,使烈度评定更加客观与科学是地震工程界一直所追求的.人的感觉和器物的反应都是评定一次地震时相应烈度的宏观标志,是烈度表的重要组成部分.鉴于此,本文简要介绍了中国历代地震烈度表(《新的中国地震烈度表》、《中国地震烈度表(1980)》、《中国地震烈度表( 1999... 相似文献
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根据《中国地震烈度表》(GB17742-2020)中规定的仪器烈度计算方法处理门源M6.9地震强震动记录数据,得到测点仪器烈度值,将宏观烈度图Ⅵ度区以上站点与仪器测定烈度进行对比,发现44.44%站点测定的仪器烈度值与宏观烈度图中烈度区值完全吻合,88.89%站点的误差在±1度以内,说明《中国地震烈度表》建议方法获得的仪器烈度可以表征记录站点周边的震害程度;对比分析了基于PGA、PGV计算的仪器烈度值,发现在此次地震PGV中较PGA对于建筑物影响要明显,对震害的指示作用要优于PGA。基于仪器地震烈度值绘制了仪器地震烈度分布图,分布图整体上呈北西—南东方向展布,与宏观烈度走向基本一致。 相似文献
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华中、华南中强地震区地震烈度衰减关系研究 总被引:8,自引:1,他引:7
本文收集了1990-2006年间,我国华中、华南中强地震地区25次地震的烈度分布图,再配合1918-1989年间,9次地震的地震烈度分布图,重新拟合了该地区地震烈度衰减关系。震级下限从5级扩展到3.5级,地震烈度主要增加了Ⅳ度-Ⅵ度之间的样本量。与以往的地震烈度衰减关系相比,在小地震时计算烈度得到了相应的提高。充分反映出我国华中、华南地区地震震级小,而烈度相对高的特点。 相似文献
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基于地震台网资料快速发布的震动烈度标准及其应用研究 总被引:4,自引:0,他引:4
在总结现有烈度计算方法的基础上,通过比较中国地震烈度评定表和台湾烈度评定表,提出以水平向地震动峰值加速度为标准的震动烈度表.表中采用1~10度共10级划分方式,每度都有定量标准与之对应.作者以福建省地震监测台网记录到的福建顺昌ML4.9地震和永春ML4.7地震为例采用以上震动烈度标准进行了分析计算,并与其他烈度计算方法及现场烈度调查结果进行比较,说明利用地震台网资料快速评定震动烈度的思路是可行的,评定结果可为政府应急救灾和民众了解大致震害程度提供重要信息. 相似文献
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随机方法在地震烈度速报中的应用 总被引:1,自引:0,他引:1
我国地震监测台网间距大,很难实现大震发生时地震烈度分布图的快速编制.基于随机方法,利用历史小震数据反演地震动估计模型的参数,参考地震发生时获取的少量强震动数据,选取合适的震源参数,正演地震动场的分布.根据地震烈度与地震动参数的经验关系,实现地震烈度速报.本方法可以模拟大震的近断层地震动特征,对高烈度区的判断较目前常用的烈度速报方法更为合理.研究成果既可以用于首张烈度分布图的发布,还能够用于地震烈度的动态修正. 相似文献
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发展地震烈度速报系统是我国现阶段防震减灾事业的一项重要工作.其目的是在地震发生后,对强震动数据进行实时分析和处理,快速给出强震对地表的破坏程度——地震烈度分布图.鉴于目前国内强震动台网分布密度及数据传输方式等诸多因素的限制,多数烈度速报系统是基于美国的ShakeMap系统进行二次开发生成烈度分布图,其计算过程更多地依赖于对地震破裂过程的反演及地震烈度衰减关系,产出的烈度图是静态位图,分辨率较低,与丰富的地理信息难以无缝衔接(Wald et al,1999a;张晁军等,2010;泽仁志玛等,2006). 相似文献
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本文基于地震烈度数据点,用椭圆参数方程对烈度点空间分布进行最小二乘拟合,得到各烈度区椭圆烈度估计线,然后对烈度估计线进行统计回归,得到一组适用于青、甘、川、滇4省中强地震的椭圆烈度分布模型I=f(M,R).基于所建烈度分布模型,联立考虑中心点和方向性的椭圆数学方程,代入全部烈度数据点估算地震震级和宏观震中.本文的试算震例表明了此方法的可行性,并进行了不确定性分析.利用该方法对明清时期4次烈度点较少的中强历史地震参数进行了估算,所得结果表明了此方法对历史地震有效. 相似文献
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Tiziana Tuvè Antonio Teramo Jesus Ibañez Carla Bottari Domenica Termini 《Pure and Applied Geophysics》2005,162(4):747-760
A modelling of the observed macroseismic intensity of historical and instrumental earthquakes in southern Spain is proposed, with the aim of determining the macroseismic parameters for seismic hazard evaluation in a region in which the characterization of intensity distribution of seismic events shows different levels of difficulty referable to the complex faults system of the area in study. The adopted procedure allows an analytical determination of epicenters and principal attenuation directions of earthquakes with a double level of verification with reference to the maximum shaking area and structural lineaments of the region, respectively. The analyses, carried out on a suitable number of events, highlight, therefore, some elements for a preliminary characterization of a seismic zonation on the basis of the consistency between seismic intensity distribution of earthquakes and corresponding structural framework. 相似文献
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利用地震烈度资料定量估算历史地震震中区域和震级的方法是由Bakun和Wentworth于1997年首先提出的.该方法定量程度高,对烈度数据较少或发生在近海的历史地震的定位和震级估算尤为有效.按照Baku和Wentworth给出的思路,笔者尝试了对我国华北地区的历史和近代地震的震中和震级进行初步分析.首先,选取20世纪以来发生在该地区的10次有仪器记录的地震(5.3le;MSle;7.8),对该地区的烈度-震级-震中距衰减关系进行标定并给出了烈度衰减模型,表明华北地区烈度随震中距增大而衰减的速率明显小于美国加州地区(约50%).在此衰减模型的基础上,提出了确定震级和震中区域的网格搜索试算方法(GSTSL),并给出了适用于华北地区的圈定震中区域和烈度震级的等值线置信值.最后,讨论了计算震中区域等值线时所引进的权因子Wi及其中参数b对震中区域等值线圈闭性的影响.利用该方法,对发生在1668年莒县——郯城地震,1679年三河——平谷地震,以及1966年隆尧地震和1969年渤海地震进行了分析.需要指出的是,该方法也可推广应用于我国其它历史地震资料丰富的地区. 相似文献
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Introduction With rapid development of national economy, urbanization has been speeded up in China, and several city groups or city belts with extra-large cities as their centers have been formed. For example, Pearl River Delta urbanized area surrounds Guangzhou City, Shenzhen City, Zhuhai City; Yangtze River Delta urbanized area surrounds Shanghai City, Suzhou City, Wuxi City, Nanjing City, Hangzhou City; Beijing-Tianjin-Tangshan urbanized area surrounds Beijing City, Tianjin City… 相似文献
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Firstly, the impact of historical earthquakes on 34 China province-level capital cities is evaluated by using historical earthquake
catalog. The distribution of affected intensity shows, about 53% of cities have even not been affected by earthquake intensity
VI, and 44% of cities have been hit by earthquake intensity VII to IX. For most of the cities, occurrence frequency of affected
intensity VI is usually higher than that of affected intensity larger than VI, and the value of affected intensity with maximal
occurrence frequency may be very different among cities. So both the maximal affected intensity and the affected intensity
with maximal occurrence frequency should be taken into account when the prevention seismic intensity needs to be determined.
Secondly, considering the incompleteness of records of historical earthquakes, a method of earthquake catalog computer simulation
is introduced to study the features of affected intensity of big cities. 69 county-level cities of Fujian Province are selected
to be statistical objects. The statistical result shows, for different risk levels the seismic intensity changes greatly among
cities, the seismic intensity of 2% probability of exceedance in 50 years can be regarded as the characteristic affected intensity
of city, and can be the basis of determining the city special earthquake prevention level and a proper indicator of future
earthquake’s impact on cities.
Foundation item: A Public Benefit Foundation of the Ministry of Science and Technology of China. Contribution No. 04FE1005,
Institute of Geophysics, China Earthquake Administration. 相似文献
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With the central part of Shanxi Province as an example, this paper studied seismic intensity zonation directly by use of the
response intensity of historical earthquakes. From the result, some conclusions can be drawn as follows: (1) For areas rich
in data of historical earthquakes, the seismic intensity zonation map with probabilistic meanings can be compiled by use of
the statistical features of the response intensity of sites; (2) When determining the length of time for statistics, the completeness
of response intensity data and the inhomogeneity of regional seismic activities should be fully considered; (3) By comparing
the seismic intensity zonation result for recurrence interval of 500 years with the new Seismic Intensity Zonation Map of
China (1990), it has been found that the two are roughly similar; though they are somewhat different for some localities,
each has its own reasonableness.
Contribution No. 95A00095, Institute of Geophysics, SSB, China. 相似文献
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采用现代仪器地震记录和烈度资料,我们建立了用于定量估算历史地震震级和震中位置的烈度衰减模型和分析方法,并对我国西南川滇地区的历史和近代地震的震中和震级进行了重新分析.利用20世纪以来该地区十四个有仪器记录的地震(5.9≤Ms≤8.0)及相应的烈度数据,对其烈度-震级-震中距衰减关系进行标定,并建立了用于震中和震级估算的烈度衰减模型.结果表明,当震级一定时,川滇地区烈度随震中距增大而衰减的速率明显小于美国加州地区(~60%).在衰减模型基础之上,发展了确定震中区域和震级的网格搜索试算方法(GSTSL),并给出了确定震中位置和震级的等值线置信值.采用所建立的分析方法,对1786年康定地震,1850年西昌地震,1913年峨山地震和1970年通海地震进行了分析,给出了更为精确合理的结果. 相似文献
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An evaluation of the magnitude of historical earthquakes is proposed, through an empirical relation based on a felt area of historical earthquakes derived from a vectorial modelling of macroseismic intensity distribution. 相似文献
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合理地确定场地的历史地震影响烈度,是工程场地地震安全性评价工作中的重要一环。本文以广东南澳跨海大桥场址为例,论述了历史地震影响烈度分析的要点。首先对南澳附近1918年7.3级地震的震中位置及对桥址的影响烈度进行了确认;其次对选择合适的区域地震烈度衰减关系进行了分析比较,并建立了合理的桥址影响烈度目录;最后应用极值统计分析方法,得到不同平均重现期所对应的烈度值,为大桥的抗震设计提供了设防依据。 相似文献
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For earthquake disaster mitigation,we use historical records and more complete intensity investigation data from 1500 to 2015 to analyze and estimate the seismic intensity and frequency of the earthquake-prone areas in Yunnan. We digitized intensity observations and divided the Yunnan region into cell size of 0. 2°× 0. 2° to calculate the seismic intensity-frequency relationship for each cell. Combined with a repeated cycle of intensity of one hundred years and population economics data in Yunnan,we analyze future areas of concern. The results can provide a reference for earthquake hazardous area zoning.This method is based on historical earthquake data,reducing as much as possible the various hypotheses for the assessment,and thus can concisely reflect the different intensityfrequency distributions of the region. 相似文献