简介:一、地震基本参数表1 地震基本参数表发震时间年月日时分秒震 中 位 置微 观宏 观东经北纬东经北纬参考地名震级(MS)震源深度(Km)震中烈度 地震类型 19940916142020118°41′22°36′台湾海峡73191Ⅷ主余震型 表中震源深度为台湾台网测定。二、地震烈度分布震中位于远离陆地的海域,调查在闽粤沿海陆地上进行,最高烈度为Ⅵ度,存在Ⅵ度强乃至Ⅶ度的异常点,仅勾划出Ⅵ度及Ⅴ度两条等震线(见图19-1),它们均呈北东走向微向北西突出的弧形。图19-1 1994年9月16日台湾海峡地震等震线图Ⅵ度区:成带状展布于福建省厦门、漳州及广东省汕头、潮州等地。Ⅵ度等震线北起福建省泉州的石
简介:ThetimeseriesofcoordinatesofalargenumberofGPSstationsintheworld,processedbyProf.GeoffreyBlewittwithGIPSYsoftwareareavailableathttp://geodesy.unr.edu.BasedonthetimeseriesofcoordinatesintheglobalreferenceframeofIGS08atmorethan250stationsofcontinuousGPSobservations,downloadedfromthewebsite,theco-seismicdisplacementsoftheM7.3KyushuearthquakeonApril16,2016inJapanandthepre-seismicstrainaccumulationsanddisplacementsintheregionalreferenceframewereobtained.ThestationofcontinuousGPSobservationatBJFSnearBeijinghasbeenquitestableindisplacementintheeasternpartofChinaformorethan17yearssincethebeginningofitsoperation,andthisstationisusedasthecorestationintheregionalreferenceframeforthepre-seismicdisplacementoftheKyushuearthquakeofM7.3.Themainfeatureofthepre-seismicdisplacementsoftheKyushuearthquakeischaracterizedbylockinginthecrustatandneartheepicenter.Theanomalouspre-seismicstrainaccumulationdevelopedinanareaofanomalousaccumulationoftheshearstraincomponentofγ1onthenortheastsideoftheepicenter,withincreasingsizeoftheareaandincreasingmagnitudeinγ1.Thelargestareacoveredbytheanomalousγ1isabout2000km2.ThechangeintheEcomponentatBJFSsinceNovember26,2015wascausedbythereplacementofthereceiverandtheantennaatthestation.Inordertostudytheshort-termchangeindisplacementsatstationsatandneartheepicenter,thetimeseriesat3stationswithcontinuousGPSobservations,2atSUWNandDAEJinsouthKoreaand1atBJSHnearBeijingwereanalyzed.Theanalysisshowsthatthedisplacementsatthe3stationshavebeenquitestableinthesamemannerineastAsia.Thus,BJSHisusedasthecorestationintheregionalreferenceframeofdisplacementandthedisplacementtimeseriesshowthattherewerenosignificantshorttermanomaliesbeforetheearthquake
简介:UsingthefocalmechanismsolutionsandslipdistributionmodeldataoftheTaiwanStraitsMS7.3earthquakeonSeptember16,1994,wecalculatethestaticCoulombstresschangesstemmingfromtheearthquake.Basedonthedistributionofaftershocksandstressfield,aswellasthelocationofhistoricalearthquakes,weanalyzetheCoulombstresschangetriggeredbytheTaiwanStraitsMS7.3earthquake.TheresultshowsthatthestaticCoulombstresschangeobtainedbyforwardmodelingbasedontheslipdistributionmodelisquiteconsistentwiththelocationofaftershocksintheareasfarawayfromtheepicenter.Ninetypercentofaftershocksoccurredinthestressincreasedareas.TheCoulombstresschangeisnotentirelyconsistentwiththedistributionofaftershocksneartheepicenter.ItisfoundthatCoulombstresschangecanbetterreflecttheaftershockdistributionfarawayfromtheepicenter,whilesuchcorrespondingrelationshipbecomesquitecomplexneartheepicenter.ThroughthecalculationoftheCoulombstresschange,wefindthatthestressincreasesinthesouthwestpartoftheMin-Yue(Fujian-Guangdong)coastalfaultzone,whichenhancestheseismicactivity.Therefore,itisdeemedthattheseaareabetweenNanpengIslandandDongshanIsland,wheretheMin-YuecoastalfaultzoneintersectswiththeNW-trendingShanghang-Dongshanfault,hasahighseismicrisk.
简介:建筑结构层间位移是抗震设计的研究重点.本文基于广义层间位移谱,分析高阶振型对结构最大层间位移角以及对结构层间位移沿无量纲高度分布的影响,并通过调整结构侧向刚度比,分析高阶振型对结构层间位移变形类型的影响.结果表明:随着结构固有周期的增加,仅取一阶振型进行分析将会显著低估结构的最大层间位移角,高阶振型的影响决不能忽视;从结构层间位移沿无量纲高度分布的角度分析,高阶振型将会显著增加结构中上部位的层间位移需要;高阶振型将增加长周期结构的剪切变形和中上部位的弯曲变形需求,但对中下部位弯曲变形的影响并不明显;针对长周期结构的设计和分析,除计算最大层间位移角外,建议考虑层间位移沿结构高度的分布情况.
简介:在地形、地貌及场地条件复杂的山区,历次地震中都会出现一些破坏异常的点或区域.分析其破坏原因,对于当地或类似情况的点或区域的抗震设防以及减少由于地震造成的灾害损失具有重要意义.本文主要针对2014年盈江“5.24”和“5.30”地震后,Ⅷ度区的卡场镇五排村吾排小学二层框架教学楼的破坏情况进行分析,找出了造成建筑结构破坏的几个不利因素,主要包括山丘顶部地形放大效应、土层的放大效应、边坡效应以及多次地震灾害的累加效应.
简介:简述了川东TS—HNT地区飞仙关组鲕粒储层的地质特征及其储集性能,并介绍了鲕滩储层的测井响应特征。飞仙关组鲕滩储层以孔隙(洞)型为主,具有溶蚀孔洞发育、局部有少量裂缝、储层孔隙结构复杂等特点。准确的确定储层物性参数和岩性是测井解释评价的基础。通过对钻井取芯资料和测井资料的分析研究,对储层四性关系进行分析,建立了适合本区的储层参数测井解释模型,提高了储层物性参数的计算精度;针对研究区鲕滩碳酸盐岩储层孔隙结构复杂、孔渗关系变化多样的特点,以常规测井资料为基础,结合岩芯分析数据及试气投产资料,给出了储层综合测井解释成果,且测井解释结果与实际情况相一致。