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断层泥显微结构的特征与断层滑动习性的研究 总被引:1,自引:0,他引:1
天然断层中普遍存在含有粘土矿物的断层泥,大量的实验研究和野外观察证实,不同应变速度的变形作用在断层泥中留下特殊的显微构造特征。因此,我们可以根据断层泥的变形特征,来推测变形时断层的滑动方式和次序。 相似文献
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断层泥的再生显微结构特征及其地震地质意义 总被引:3,自引:1,他引:3
三轴剪切摩擦实验后的断层泥与天然断层泥的再生显微结构特征研究表明,断层泥的显微结构特征与断层滑动方式之间有一定的关系,稳滑使断层泥变形均匀,产生低角度剪切(<14°)、布丁构造和颗粒碎裂流动。粘滑使断层泥局部发生强烈变形、高角度剪切(>14°)和碎粒出现随机裂纹等。断层泥的再生显微结构特征可用作鉴别古地震的存在 相似文献
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断层泥在基岩区断层新活动研究中的意义 总被引:21,自引:0,他引:21
断层泥在基岩区断层新活动研究中的意义在于:利用断层泥中粘土矿物的组合、成分、结晶程度可以判定断层活动时的物理环境;断层泥带的宽度与断层的位移量有一定的线性关系,从而可用于确定断层的位移量;断层泥的显微构造特征及其中石英碎砾的表面结构,可以提供有关断层活动方式、性质、期次、时代等重要信息。对断层泥进行包括野外详细观测、室内显微构造分析以及年龄测定在内的综合研究,是确定基岩区断层新活动特征的行之有效的方法。 相似文献
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通过济南辉长岩双剪摩擦实验,笔者研究了非粘土断层泥带厚度随断层滑移的变化特征及主要影响因素。结果表明:非粘土断层泥的形成过程具有明显的分段特征。在断层演化的中期阶段,非粘土断层泥带厚度与断层错距呈明显的线性关系。该关系的建立,为从构造物理角度反演断层错距提供了一个可尝试的途径;凹凸体作用的结果,为非粘土断层泥的形成提供了丰富的物质来源,同时,凹凸体的几何尺度又控制着断层泥带的极限厚度。这一发现不仅对于研究断层泥的形成过程,而且对于研究断层发育的后期阶段的摩擦滑动性状都有重要意义。 相似文献
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本文采用宏观与微观相结合的方法 ,研究六盘山东麓断裂的滑动方式。结果表明 :(1)根据断层泥组构特征 ,六盘山东麓断裂可划分为北、中、南 3段 ,这与前人宏观分段结果相一致 ;(2 )北段断层泥局部强烈变形 ,发育牵引褶皱 ,吕德剪切角 (R1)介于 11°~ 2 6° ,以及伊利石无明显的优选方位组构 ,表明该段断层活动是以粘滑为主的左旋走滑运动 ;(3)中、南段断层泥普遍变形 ,吕德剪切角 (R1)一般小于 11° ,P叶理、带状褶皱和肠状构造发育 ,以及伊利石复杂的优选方位组构 ,显示该断层的活动是以蠕滑为主的多期逆冲滑动 相似文献
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昌马断裂带断层岩研究及其粘滑,蠕滑特征 总被引:2,自引:0,他引:2
在对断层岩的分布、内部结构、宏观变形及断层泥中石英颗粒形态、表面特征研究分析的基础上,讨论了昌马断裂带粘滑、蠕滑特征。同时指出,昌马断裂带虽以粘滑运动为主,但仍伴有一定量的蠕滑活动。 相似文献
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介绍了西秦岭北缘断裂带东段和海原断裂带西段的天然断层泥的分形方法和结果,并对断层泥的粒度分布特征与断层运动特性的关系进行了探讨。 相似文献
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本文通过对断层泥的粒度、粘土矿物成份的分析,石英碎砾的SEM显微构造和断层泥原岩的SEM观察研究,探讨坝区F7断层的活动性质。 相似文献
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熊坡背斜构造变形与蒲江-新津断裂活动特征 总被引:3,自引:0,他引:3
熊坡背斜位于龙门山构造带东南端的成都盆地内,是龙门山逆冲推覆构造向前推挤进入盆地内部的一个主要变形区域,与其配套发育的断裂为蒲江-新津断裂,断裂与背斜褶皱之间在构造变形模式上表现出明显的一致性。在褶皱和断裂的构造变形和活动特征上,熊坡背斜南段表现为一种不对称的褶皱,向NE方向发展表现为较为宽缓的对称褶皱形态,卷入的地层主要是中生代及其以前的地层,对蒲江-新津断裂的地貌调查结果表明,断裂没有对该区域内广泛发育的冲沟Ⅰ级阶地产生影响,而对山前发育的相当于南河(岷江Ⅰ级支流)Ⅳ级阶地的洪积台地有明显的控制作用,说明断裂活动时间应该为第四纪早期,到第四纪晚期活动减弱或是趋于静止 相似文献
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THREE-DIMENSIONAL STRUCTURAL FEATURES OF THE PENGXIAN ACTIVE BLIND FAULT IN THE CENTRAL LONGMEN SHAN FRONT BELT 
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下载免费PDF全文 WANG Zhen-nan LU Ren-qi XU Xi-wei HE Deng-fa CAI Ming-gang LI Ying-qiang LUO Jia-hong 《地震地质》2019,41(4):944-959
The Pengxian blind fault is a typical active fault in the central Longmen Shan front belt. It has important reference value for understanding the growth mode and process of the eastern Tibetan plateau. Because the fault is covered by the thick Upper Cenozoic strata in the western Sichuan Basin, its three-dimensional spatial distribution, structural style and formation mechanism remain unclear. In this paper, based on several high-resolution 3-D seismic reflection profiles, together with near-surface geological data and borehole data, we investigate the structural geometry of the Pengxian blind fault and build a 3-D model based on the results. We analyze the shape and scale of underground spatial distribution of the fault through a three-dimensional fault model. According to the theory of fault-related fold and fold-accommodation fault, this paper discusses the forming mechanism of the Pengxian buried structures. The shallow tectonic deformation in front of Longmen Shan is closely related to the detachment layer of the Middle and Lower Triassic, and this detachment layer f1 horizontally propagates into the Longquanshan anticline in the western Sichuan Basin. The Pengxian buried fault is a typical fault-bend fold and the f1 horizontally propagates into the western Sichuan Basin with a fault slip of 3.5km. The Pengxian blind fault is a high angle(50°~60°)thrust fault developed in the front wing of the kink-band zone, striking NE-SW, with a total length of~50km; But the fault is not connected with the Dayi buried fault in the south section of Longmen Shan. They are two different faults, and this defines the scale of the Pengxian blind fault. This limitation makes sense for analyzing and evaluating the magnitudes of potential earthquake. All above study provides research basis for further analysis of the potential seismic risk in this area. The Pengxian blind fault is parallel to the anticlinal axis with small amount of offset as a fold-accommodation fault. We believe that the fault formation is related to the fold deformation of the fold front limb. The study reveals the geometry, kinematics and formation mechanism of the Pengxian active fault, and provides a basis for further analysis of fault activity and hazard. Therefore, there is little possibility of strong earthquakes at the Pengxian blind fault due to its formation mechanism of the fault which is generally characterized by fold deformation and shortening deformation. In this paper, we discuss the location of Pengxian blind fault in the middle of Longmen Shan and Sichuan Basin. Because the Pengxian buried structures are in the transition area, the shortening amount in Pengxian indicates that the absorption in the basin is quite limited. It reflects the blocking effect of Sichuan Basin. In the study, we find that the relationship between folds, faults and sediments is an important part of tectonic interpretation; the theory of fault-related fold and fold-accommodation fault is well used for analysis. This would have great significance for the study of structural deformation, which can help to build a three-dimensional model of fault. 相似文献
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磨子潭-晓天断裂(晓天至佛子岭间)的构造分析 总被引:1,自引:0,他引:1
根据断裂带切割变质围岩中各期变形旋回形成的褶皱,断裂带中的断层岩为形成于地表条件下的角砾岩和碎裂岩并切割围岩中各种糜棱岩带,构成上侏罗统火山岩盆地的边界断层等特征,磨子潭-晓天断裂应是晚侏罗世形成于地表条件下的断层;根据断层附近上侏罗统砂岩夹层中的裂隙焊接,磨子潭-晓天断裂在晚侏罗世形成后,还有两次较强烈的活动。据地表、钻探和地震资料,断层面向北倾,倾角向深部变缓 相似文献
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USING STEREO-PAIR AND DIFFERENTIAL GPS TO REVEAL SURFACE DEFORMATION CHARACTERISTICS OF THE MINLE-YONGCHANG FAULT 下载免费PDF全文
下载免费PDF全文 ZOU Xiao-bo YUAN Dao-yang SHAO Yan-xiu LIU Xing-wang ZHANG Bo YANG Hai-bo 《地震地质》2017,39(6):1198-1212
Qilian Shan-Hexi Corridor is located in the northeastern margin of the Tibetan plateau, which hosts many active strike-slip and thrust faults as well as folds. Previous study on this area was mostly concerned with large faults at the boundary of the corridor, while rare work on active tectonics in the interior of the corridor. On 25 October 2003, the Minle-Shandan MS6.1 earthquake occurred in this area, which is related with the Minle-Yongchang fault hidden beneath the south piedmont of the Dahuangshan Mountains. As there is no obvious rupture trace on the surface, the quantitative study of this fault has never been reported so far.
In order to obtain quantitative parameters of this active structure efficiently, the software of ERDAS was used to generate pointscloud data from SPOT6 stereo-pair. Two-meter resolution DEM imagery from point cloud has the line accuracy of height about 1m. Three swath profiles were extracted from the DEM data, which show that high geomorphic surfaces are all uplifted and folded. By differential GPS measurement, the vertical uplift of the thrust-related fold is estimated to be about 2.0m on the T2, and the strike of the fold deformation is nearly 311°, which is close to the result of the fault parameter determined by aftershocks, and also in agreement with the focal mechanism solutions. Furthermore, the location of fold axial zone is consistent with the actual investigation data. These indicate that there is obvious tectonic deformation in the west part of the Minle-Yongchang fault. It supports the view that this fault is the seismogenic structure of the 2003 Minle-Shandan earthquake. Stereo-pair is of high importance in active tectonics research, which can provide significant guidance for field geologic investigations and determining the location of tectonic deformation, according to this research. 相似文献
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发育在帕米尔弧形推覆构造带最前缘的木什活动背斜是一南缓北陡的第四纪滑脱褶皱,背斜的最小地壳缩短量为0.7km,构造隆升幅度可达1.5km.木什背斜北翼逆断层由一系列坡向北的反向断层陡坎组成,不同断坎间垂直位移分布呈现此消彼长的特征,不论是整个北翼逆断层西段还是单条断坎,其垂直位移均呈东高西低的不对称分布,位移梯度东高西... 相似文献
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PALEOSEIMOLOGY AND LATE QUATERNARY SLIP RATE OF THE YOUSHASHAN FAULT AT SOUTHWESTERN MARGIN OF QAIDAM BASIN 下载免费PDF全文
下载免费PDF全文 The Youshashan Fault lies in the south flank of Yingxiongling anticline, southwestern margin of Qaidam Basin. The Yingxiongling anticline is one of the most active neotectonics, situated at the front of folds expanding southward in the Qaidam Basin. Research on the paleoseimology and Late Quaternary slip rate of this fault is important for hazard assessment and understanding tectonic deformation in this area. We excavated a 27-m-long trench across the Youshashan fault where a pressure bridge formed on the Holocene alluvial fans, measured a profile of the fold scarp created by the fault west of the Youshashan mountain, and collected several samples of finer sands for luminescence dating. Analysis of these data shows that(1) The Youshashan Fault is a Holocene active feature. The fold scarp in the basin indicates that this fault has been active along a same surface trace since at least mid-late Pleistocene. At least two paleoseismic events are revealed by trenching, both occurred in Holocene. The latest event Ⅱ in the trench happened after 500a. The current information fails to confidently support that it is the 1977 Mangya M6.4 earthquake, but cannot excludes the possibility of it is related to this earthquake. The other event Ⅰ occurred about between 1 000a to 4 000a. Erosion after the event Ⅰ prevents us to constrain the event age and to identify more events further. (2)The vertical slip rate of the Youshashan fault is about(0.38±0.06)mm/a since mid-late Pleistocene. Comparing with relative speeds of GPS sites across the Yingxiongling anticline suggests that the Youshashan fault is an important structure which is accommodating crustal shortening in this region. 相似文献
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西秦岭北缘断裂带的深部构造特征及其与地震活动的关系 总被引:1,自引:0,他引:1
西秦岭北缘断裂带是中国的一条主要超壳断裂带,也是祁连褶皱系与秦岭褶皱系的分界断裂带。利用近几年取得的人工地震、重力、航磁、地热等资料,从地质和地球物理两个方面就该断裂及其两侧的深部构造特征作一初步分析并讨论了断裂带的最新活动及地震活动。 相似文献
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郯庐断裂带莱州湾段的构造特征 总被引:5,自引:1,他引:5
本文利用海上浅层地震勘探剖面分析了郯庐断裂带莱州湾段的上更新统、全新统和活动构造的某些特征。晚更新世末期发生的构造运动使上更新统产生断裂与褶皱,沿郯庐断裂带东主干断裂发育了狭长的背斜构造,在西主干断裂两侧次级横向(东西向)断裂十分发育,这些横向断裂是一些高角度的张性正断层。 相似文献