共查询到20条相似文献,搜索用时 437 毫秒
1.
陈培善 《地震学报(英文版)》1995,(4)
Epicentral distribution in 1994Pei-ShanCHEN(陈培善)(InstituteofGeophysics,StateSeismologicalBureau,Beijing100081,China)Pei-ShanC... 相似文献
2.
GlobalshearstrespaterninmainseismicactivebeltsLEIXIAO(肖磊)PEI-SHANCHEN(陈培善)InstituteofGeophysics,StateSeismologicalBureau,Bei... 相似文献
3.
陈培善 《地震学报(英文版)》1997,(6)
Epicentraldistributionin1996PEI-SHANCHEN(陈培善)InstituteofGeophysics,StateSeismologicalBureau,Beijing100081,ChinaForshowingthee... 相似文献
4.
Parametersensitivityanalysesinseismichaz┐ardJIANWANG(王健)andMENG-TANGAO(高孟潭)InstituteofGeophysics,StateSeismologicalBureau,Be... 相似文献
5.
ResearchofpatterndynamicsparametersofcrustaldeformationfieldinseismogenicprocessShuo-YuZHOU(周硕愚),YunWU(吴云),Ruo-BoWANG(王若柏)and... 相似文献
6.
刘晓红 《地震学报(英文版)》1996,9(2):345-349
Themanufactureofathree-dimensionaltransducerusedinlaboratoryXIAO-HONGLIU(刘晓红)(InstituteofGeophysics,StateSeismologicalBureau,... 相似文献
7.
NumericalsimulationofthedetachmentdynamicsinNorthChinaBasinDong-Ning;ZHANG(张东宁)andRong-ShengZENG(曾融生)(InstituteofGeophysics,S... 相似文献
8.
InsearchofpotentialarthquakesourceregionsintheChinesemainlandinthelightofambient shearstressfieldPei-ShanCHEN;(陈培善)Tong-XiaBA... 相似文献
9.
Experimental studies on the evolution process of microcrack patterns in concrete samples con-taining hard inclusions 总被引:1,自引:0,他引:1
ExperimentalstudiesontheevolutionprocesofmicrocrackpaternsinconcretesamplescontaininghardinclusionsZHAOYONGXU1)(许昭永)BINWAN... 相似文献
10.
DeformationdatuminsourcemechanisminversionSHOU-WENGONG(巩守文,QING-LIANGWANG(王庆良),YI-QINGZHU(祝意青)andBINGCHEN(陈兵)(SecondCrustalDe... 相似文献
11.
In this paper, variations of shear wave splitting in the 2013 Lushan Ms7.0 earthquake sequence were studied. By analyzing shear wave particle motion of local events in the shear wave window, the fast polarization directions and the delay time between fast and slow shear waves were derived from seismic recordings at eight stations on the southern segment of the Longmenshan fault zone. In the study region, the fast polarization directions show partition characteristics from south to north. And the systematic changes of the time delays between two split shear waves were also observed. As for spatial distribution, the NE fast polarization directions are consistent with the Longmenshan fault strike in the south of focal region, whereas the NW fast direction is parallel to the direction of regional principal compressive stress in the north of focal region. Stations BAX and TQU are respectively located on the Central and Front-range faults, and because of the direct influence of these faults, the fast directions at both stations show particularity. In time domain, after the main shock, the delay times at stations increased rapidly, and decreased after a period of time. Shear-wave splitting was caused mostly by stress-aligned microcracks in rock below the stations. The results demonstrate changes of local stress field during the main shock and the aftershocks. The stress on the Lushan Ms7.0 earthquake region increased after the main shock, with the stress release caused by the aftershocks and the stress reduced in the late stage. 相似文献
12.
本文对2010年玉树Ms7.1级地震序列的横波分裂的时空变化现象进行了研究.通过在横波窗内S波质点运动图的分析,从位于甘孜-玉树断裂带台站的地震记录中提取了S波分裂的快波偏振方向和快慢波之间的时间延迟.断裂带上3个台站的S波分裂的结果显示了NEE向快波偏振方向,与区域内最大主压应力方向基本一致.观测到了快、慢波到时延迟的趋势性变化,空间上,位于震源区甘孜-玉树断裂带的北支断裂上L6304和YUS台的到时延迟大于位于南支断裂上的L6303的结果,同时YUS台的到时延迟又大于L6304台的;时间上,YUS台的到时延迟在主震后迅速增大,持续一段时间后又减小.横波分裂现象主要由台站下方岩层中随应力分布排列的微裂隙控制,本文结果揭示了主震和余震过程中区域应力场的变化,玉树地震主震区的应力在主震后得到了释放,地壳应力向东南转移,导致了YUS台的到时延迟大于L6304台的;玉树地震的发震断裂是甘孜-玉树断裂的北支断裂,而南支断裂对其影响较小;YUS台附近的地壳应力在主震后得到了增强,随着余震活动导致的应力释放,后期应力减小. 相似文献
13.
Shahrokh Pourbeyranvand 《Acta Geophysica》2018,66(6):1273-1290
The Alborz is one of the most important seismotectonic provinces in Iran. Furthermore, emplacement of Tehran as a mega city in southern part of the Alborz intensifies the seismic vulnerability in this area. In this study, the focal mechanism data from teleseismic and local seismic networks are used for stress tensor inversion. The earthquake focal mechanisms in the Central Alborz are divided into several groups with respect to their location. Two different stress tensor inversions, linear and nonlinear, are used for obtaining the principal stress orientations. The results show spatial variations in tectonic stress field, consistent with fault orientations and faulting mechanisms. The maximum compressional stress directions obtained in this study are confirmed by fast S-wave polarization axes reported by a previous shear wave splitting study. The maximum horizontal stress directions are also compared with GPS strain rates. The results indicate a partitioning of deformation in the area due to regional stresses along preexisting faults. 相似文献
14.
15.
对2017年九寨沟MS7.0地震序列的横波分裂的时空变化特征进行了分析.通过横波窗内S波质点运动图的分析,从九寨沟地震震源区各个地震台站的近震横波记录中提取了横波分裂的快波偏振方向和慢波延迟时间.观测结果显示,震源区各台站的上地壳各向异性在空间上存在分区特征,时间上有随时间的趋势性变化特征.空间上,位于震源区北部余震区内的3个台站中,发震断层东面的台站L5112和L5111只有一个突出的快波偏振优势方向(NNE向),而西面的L6202台有两个快波偏振优势方向(除了NNE向,还有一个近EW向),体现了余震区剧烈调整的地壳应力和构造复杂断裂的综合作用;余震区外的3个台站中,震源区东部靠近塔藏断裂(东)附近的JZG台的快波偏振优势方向为NW向,与塔藏断裂(东)的走向一致,南部的台站L5110和L5113的快波偏振优势方向为近EW向,与区域主压应力方向一致;余震区内各台站的平均慢波延迟时间大于余震区外各台站,反映了九寨沟地震孕育过程中余震区的应力积累强于其周边区域.时间上,快波偏振方向在主震后前期离散度较大,随着时间的推移,离散度在后期有逐渐变小的趋势;慢波延迟时间在主震后较大,但随着时间的推移,也表现出逐渐减小,趋于稳定.横波分裂随时间逐渐减小和趋于稳定的变化特征反映了九寨沟地震在孕震中积累的应力,随着主震和余震的发生而导致的应力释放和调整,应力大小和调整幅度逐渐减小,后期趋于稳定. 相似文献
16.
利用在新疆伽师地区布设的流动台阵记录到的地方震波形数据,研究了伽师强震群附近各台站横波分裂现象,给出了相应的快波偏振方向的平面场分布. 发现在台阵的塔里木盆地一侧,波偏振方向为近SN向,与塔里木盆地的区域主压应力方向一致,但在塔里木盆地北部边缘的褶皱变形带内,快波偏振方向变为近EW向,特别是在柯坪断裂附近,快波偏振方向与阿图什地震的震源断层方向基本一致. 由于快波偏振方向平行于主压应力方向,给出的快波偏振方向反映了相应的主压应力场特征. 结果表明,伽师强震群的成因很可能是塔里木盆地北缘横向非均匀变形造成的局部张性剪切应变能的释放. 相似文献
17.
Through the analysis of S-wave particle motion of local events in the shear wave window, the polariza-tion directions of the faster shear wave and the delay times between the faster and the slower shear waves were derived from seismic recordings at the stations near the fault zones. The shear wave split-ting results of seven stations in the area of Longmenshan fault zone reveal spatial variation of the po-larization directions of the fast shear wave. The directions at stations in the southeastern side of the Longmenshan fault zone (in the Sichuan Basin area) are in the NE direction, whereas the direction at station PWU (in the Plateau), which is in the northwestern side of the faults, is in the EW direction. Systematic changes of the time delays between two split shear waves were also observed. At station L5501 in the southern end of the aftershock zone, the delay times of the slower shear wave decrease systematically after the main shock. After the main shock, the delay times at station PWU were longer than those before the earthquake. Seismic shear wave splitting is caused mostly by stress-aligned microcracks in the rock below the stations. The results demonstrate changes of local stress field dur-ing the main-shock and the aftershocks. The stress in the southern part of Wenchuan seismogenic zone was released by the main-shock and the aftershocks. The crustal stresses were transferred to the northeastern part of the zone, resulting in stress increase at station PWU after the main-shock. 相似文献
18.
Just after the occurrence of anM=5.2 earthquake in Shimian, Sichuan, two three-component seismometers were set up near the epicenter of the earthquake. Field observations were made for the four-year period from 1989 to 1992. Analysis of the data recorded from either aftershocks following theM=5.2 earthquake or from small earthquakes scattered in this region indicates the presence of shear wave splitting. And shear wave splitting varies with time. The mean direction of polarization of the faster shear waves is N18°W during the period of aftershock activity, which is consistent with the strike of the faulting plane of the mainshock; but has turned to N46°W from 1990 to 1992, which is consistent with the regional maximum compressive stress. The time delays between split shear waves measured on records from 1990 to 1992 are about half of that in 1989. The results obtained from observations at two temporary stations are similar. This indicates that the temporal changes may be related to the occurrence of theM=5.2 mainshock. 相似文献
19.
2003年云南大姚6.2级和6.1级地震余震S波分裂研究 总被引:2,自引:0,他引:2
利用2003年云南大姚6.2、 6.1级两次地震的余震资料对该区进行了S波分裂研究。 结果表明, 云南大姚地区的快剪切波偏振的优势方向约为N33°W, 与该区域的区域主压应力的方向一致。 通过对比6.2级余震和6.1级余震的偏振方向和延迟时间, 可以看到6.1级地震后明显的应力释放现象, 在几次强余震前, 均观测到延迟时间呈现增加的特征, 并且几次地震在即将发生之前的短时间内还观测到延迟时间有减小的现象, 这一现象符合震前应力长时间积累和短时间应力释放的结论, 时间延迟在强震前会出现下降具有重要的地震短临预测意义。 研究认为S波分裂参数可以反映区域应力场的动态变化信息, 为应力场研究与地震预测提供有用的信息。 相似文献
20.
本文讨论了2017年8月8日九寨沟MS7.0 (MW6.5)地震之后震源区的地震活动性,并针对震后九寨沟地区架设的4个流动地震台站记录到的地震波形数据进行了剪切波分裂参数的计算,分析了震源区地壳应力场的特征性变化。九寨沟MS7.0地震的地震活动性表现为:8月8日主震后震源区地震活动明显增强,直至8月22日之后才有所下降,余震震级整体也呈降低趋势,震级多集中在MS2.0以下。震源区4个流动台站的剪切波分裂结果表明:快波偏振方向近似为东西向,揭示了九寨沟地区的区域应力场方向为近似东西向;区域内慢波延迟时间的平均值为5.04 ms/km,慢波延迟时间在九寨沟MS7.0地震之后降低,反映了随着余震的发生,地壳应力不断调整,应力持续释放,直至8月底地壳应力场逐渐趋于稳定状态。 相似文献