Effect of seismic super-shear rupture on the directivity of ground motion acceleration 被引量：1

Effect of seismic super-shear rupture on the directivity of ground motion acceleration

下载PDF

导出

摘要 The effect of seismic super-shear rupture on the directivity of ground motions using simulated accelerations of a vertical strike-slip fault model is the topic of this study. The discrete wave number/finite element method was adopted to calculate the ground motion in the horizontal layered half space. An analysis of peak ground acceleration （PGA） indicates that similar to the sub-shear situation, directivity also exists in the super-shear situation. However, there are some differences as tbllows：（1） The PGA of the fault-normal component decreases with super-shear velocity, and the areas that were significantly affected by directivity in the PGA field changed from a cone-shaped region in the forward direction in a sub-shear situation to a limited near-fault region in a super-shear situation. （2） The PGA of the fault-parallel and vertical component is not as sensitive as the fault-normal component to the increasing super-shear velocity. （3） The PGA of the fault-normal component is not always greater than the fault-parallel component when the rupture velocity exceeds the shear wave velocity. The effect of seismic super-shear rupture on the directivity of ground motions using simulated accelerations of a vertical strike-slip fault model is the topic of this study. The discrete wave number/finite element method was adopted to calculate the ground motion in the horizontal layered half space. An analysis of peak ground acceleration （PGA） indicates that similar to the sub-shear situation, directivity also exists in the super-shear situation. However, there are some differences as tbllows：（1） The PGA of the fault-normal component decreases with super-shear velocity, and the areas that were significantly affected by directivity in the PGA field changed from a cone-shaped region in the forward direction in a sub-shear situation to a limited near-fault region in a super-shear situation. （2） The PGA of the fault-parallel and vertical component is not as sensitive as the fault-normal component to the increasing super-shear velocity. （3） The PGA of the fault-normal component is not always greater than the fault-parallel component when the rupture velocity exceeds the shear wave velocity.

作者 Hu Jinjun Xie Lili

机构地区 Key Laboratory of Earthquake Engineering and Engineering Vibration School of Civil Engineering and Architecture

出处《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2013年第4期519-527,共9页 地震工程与工程振动（英文刊）

基金 Basic Science Research Foundation of IEM,CEA under Grant No.2011B02 973 Program under Grant No.2011CB013601 National Natural Science Foundation of China under Grant Nos.51238012,9121530113 International Science&Technology Cooperation Program of China under Grant No.2012DFA70810

关键词 ground motion DIRECTIVITY rupture velocity super-shear rupture peak ground acceleration ground motion directivity rupture velocity super-shear rupture peak ground acceleration

分类号 P315 [天文地球—地震学]

引文网络
相关文献

参考文献1

1胡进军,谢礼立.地震超剪切破裂研究现状[J].地球科学进展,2011,26(1):39-47. 被引量：10

二级参考文献77

1李世愚,陈运泰.平面内剪切断层的超S波速破裂[J].地震学报,1993,15(1):9-14. 被引量：3
2陈学忠,王琼,刘冬英.1995年河北沙城M_L4.1地震发震断层参数测定[J].地震,2005,25(2):69-74. 被引量：10
3Oglesby D D, Dreger D S, Harris R A, et al. Inverse kinematic and forward dynamic models of the 2002 Denali fault earthquake, Alaska [ J ]. Bulletin of the Seismological Society of America, 2004. 94:S214-S233. 被引量：1
4Dunham E M, Archuleta R J. Near-source ground motion from steady state dynamic rupture pulses [ J ]. Geophysical Research Letters, 2005, 32: L03302. 被引量：1
5Olsen K B, Madariaga R, Archuleta R J. Three-dimensional dynamic simulation of the 1992 Eanders earthquake [ J ]. Science, 1997, 278:834-838. 被引量：1
6Peyrat S, Olsen K B, Madariaga R. Dynamic modeling of the 1992 Landers earthquake [ J ]. Journal of Geophysical Research, 2001, 106:26 467-26 482. 被引量：1
7Bouin M P, Bouchon M, Karabulut H, et al. Rupture process of the 1999 November 12 Duzce (Turkey) earthquake deduced from strong motion and global positioning system measurements [ J ]. Geophysical Journal International, 2004, 159 : 207 -211. 被引量：1
8Song S, Beroza G C, Segall P. Evidence for supershear rupture during the 1906 San Francisco earthquake [ R ]. American Geophysical Union, Fall Meeting, 2005, abstract #S12A-05. 被引量：1
9Ohnaka M, Kuwahara Y, Yamamoto K, et al. Dynamic breakdown process and the generating mechanism for high-frequency elastic radiation during stick-slip instability [J]. Earthquake. Source Mechanics, 1986, 6 ( 37 ) : 13-24. 被引量：1
10Singh R P, Shukla A. Subsonic and intersonic crack growth along a bimaterial interface [ J ]. Journal of Applied Mechanics, 1996, 63: 919-924. 被引量：1

共引文献9

1陆坤权,曹则贤,厚美瑛,姜泽辉,沈容,王强,孙刚,刘寄星.论地震发生机制[J].物理学报,2014,63(21):444-466. 被引量：8
2陆坤权,曹则贤.地震原理新论——兼述地震预测的科学基础[J].物理,2018,47(4):211-229. 被引量：2
3陈彦阳,王彦宾,古村孝志.2008年青海大柴旦M_W6.3地震地面运动模拟[J].地球物理学报,2019,62(12):4633-4647. 被引量：3
4叶一舟.超剪切地震存在性与实验室模拟研究[J].区域治理,2019,0(33):150-152.
5程怡豪,王明洋,王德荣,宋春明,岳松林,谭仪忠.侵彻条件下两类靶体材料静阻力的探讨[J].爆炸与冲击,2020,40(6):1-11. 被引量：2
6朱守彪,崔泽飞.为什么自然界中超剪切破裂的地震是如此之少?[J].地球物理学报,2022,65(1):51-66. 被引量：1
7王松,朱守彪.断层破裂速度对地震动及其地震灾害影响的有限单元法模拟[J].地球物理学报,2022,65(2):686-697. 被引量：1
8刘凌志,邹旭明,万志文,钟菊芳.地震超剪切破裂传播过程反演分析[J].南昌航空大学学报（自然科学版）,2022,36(4):49-58.
9Xiaoqing Fan,Libao Zhang,Juke Wang,Yefei Ren,Aiwen Liu.Analysis of faulting destruction and water supply pipeline damage from the first mainshock of the February 6,2023 Türkiye earthquake doublet[J].Earthquake Science,2024,37(1):78-90.

同被引文献12

1俞言祥,高孟潭.Effects of the hanging wall and footwall on peak acceleration during the Jiji (Chi-Chi), Taiwan Province, earthquake[J].Acta Seismologica Sinica(English Edition),2001,14(6):654-659. 被引量：8
2N. A. Abrahamson,P. G. Somerville.Effects of the hanging wall and footwall on ground motions recorded during the Northridge earthquake. Bulletin of the Seismological Society of America . 1996 被引量：1
3Archuletta R J.A faulting model for the 1979 Imperial Valley earthquake. Chinese Journal of Geophysics . 1984 被引量：1
4N. A. Abrahamson,W. J. Sil.Empirical Response Spectral Attenuation Relations for Shallow Crustal Earthquakes. Seismological Research Letters . 1997 被引量：1
5Abrahamson, Norman A.,Darragh, Robert B.MORGAN HILL EARTHQUAKE OF APRIL 24, 1984 - THE 1. 29G ACCELERATION AT COYOTE LAKE DAM: DUE TO DIRECTIVITY, A DOUBLE EVENT, OR BOTH?. Earthquake Spectra . 1985 被引量：1
6James N. Brune.Precariously balanced rocks and ground-motion maps for Southern California. Bulletin of the Seismological Society of America . 1996 被引量：1
7John Boatwright,David M. Boore.Analysis of the ground accelerations radiated by the 1980 Livermore Valley earthquakes for directivity and dynamic source characteristics. Bulletin of the Seismological Society of America . 1982 被引量：1
8W. H. BAKUN,R. M. STEWART,C. G. BUFE</smal.Directivity in the high-frequency radiation of small earthquakes. Bulletin of the Seismological Society of America . 1978 被引量：1
9Chang, Tsui-Yu,Cotton, Fabrice,Tsai, Yi-Ben,Angelier, Jacques.Quantification of hanging-wall effects on ground motion: Some insights from the 1999 Chi-Chi earthquake. Bulletin of the Seismological Society of America . 2004 被引量：1
10David D. Oglesby,Ralph J. Archuleta,Stefan B. Niels.Earthquakes on Dipping Faults: The Effects of Broken Symmetry. Science . 1998 被引量：1

引证文献1

1Hu Jinjun,Zhang Wenbo,Xie Lili,Zhang Qi,Jiang Zhijun.Strong motion characteristics of the M_w 6.6 Lushan earthquake,Sichuan,China——an insight into the spatial difference of a typical thrust fault earthquake[J].Earthquake Engineering and Engineering Vibration,2015,14(2):203-216. 被引量：5

二级引证文献5

1胡进军,郑旭,郝彦春,谢礼立.俯冲带地震动特征及其衰减规律探讨[J].地球物理学报,2017,60(5):1773-1787. 被引量：13
2姜治军,胡进军,谢礼立.竖向地震动衰减模型新进展及其对四川地区预测能力分析[J].地震工程与工程振动,2017,37(3):67-79.
3胡进军,孙健,刘琎.四川九寨沟M_S 7.0地震的地震动分布和衰减特征初步分析[J].震灾防御技术,2017,12(4):797-802. 被引量：1
4胡进军,孙健.基于2014年云南景谷M_W 6.0地震的中强震地震动的方向性特征分析[J].地球物理学进展,2018,33(5):1807-1813. 被引量：1
5胡进军,姜治军,谢礼立.基于场地卓越周期的VS30估计方法研究--以川甘地区强震台站为例[J].地震工程与工程振动,2018,38(3):1-9. 被引量：7

1倪蕾,杨志良.有剪切速度的Sweet-Parker薄电流片在非线性阶段的不稳定性研究[J].空间科学学报,2011,31(4):429-435.
2Jeroen,Ritsema,陈华静.印度洋下最底层地幔中剪切速度各向异性的证据[J].地震科技情报,2001(6):41-43.
3赵铁军,丁建彤,朱全铨.如何有效使用高效减水剂[J].化学建材,1996,12(4):166-167. 被引量：1
4Ye Jihong,Pan Jinlong,Liu Xianming.Vertical coherency function model of spatial ground motion[J].Earthquake Engineering and Engineering Vibration,2011,10(3):403-415. 被引量：5
5吴忠良,陈运泰.Rupture process of November 6,1988,Lan-cang-Gengma,Yunnan,China,earthquake of M_s=7.6 using empirical Green’s function de-convolution method[J].Acta Seismologica Sinica(English Edition),1998,11(1):1-12.
6刘治.浅谈自动站与人工站的最高温度[J].科技信息,2013(3):496-497.
7徐龙军,谢礼立.Characteristics of frequency content of near-fault ground motions during the Chi-Chi earthquake[J].Acta Seismologica Sinica(English Edition),2005,18(6):707-716.
8甘飞龙.项目化管理在工程成本控制中的应用研究[J].建材与装饰（上旬）,2015(52):149-150. 被引量：5
9关于投诉[J].中国消费者,2012(10):12-13.
10广州市——电梯天天闹“罢工”[J].中国电梯,2005,16(18):8-8.

Earthquake Engineering and Engineering Vibration

2013年第4期

浏览历史

内容加载中请稍等...