变形岩石磁性各向异性及其应变相关性的模拟          下载免费PDF全文

林万智  张德华 《地球物理学报》1992,35(3):351-360

本文介绍处于弱磁场中的磁性砂岩人工样品,在三种应变作用下磁化率各向异性特征的研究结果.结果表明,磁化率椭球与应变椭球之间,显示了密切的相关性.文中并对上述情况下,磁化率各向异性特征及剩磁特征,从机理上进行了分析.  相似文献   

新丰江余震震群的“应力窗口”效应与华南地区的地震活动     

蒋维强 《华南地震》1991,11(4):35-38

本文取1962至1990年12月广东省新丰江地震的余震序列资料，从应变释放的角度定量地分析新丰江的余震活动特点以及与华南地区中强地震活动的关系，并与理论分析结果对比。发现新丰江地震的余震应变释放过程具有4次明显的应变异常增加，而且，从新丰江地震以来，华南地区发生的所有5.0以上中强地震都与新丰江余震应变释放的明显异常增加相“联系”，新丰江余震震群的出现是华南地区构造应力场增强的背景下余震区应力加强的效应，可以起到监视华南地区5.0级以上中强地震的“应力窗口”作用。从1986年以来，新丰江地区的余震活动有所加强，其应变释放明显增加，表明华南地区的构造应力场在加强，其地震活动可能达到较高的水平。  相似文献   

地倾斜固体潮所反映的地震之前应变积累异常信息   总被引：3，自引：0，他引：3  

段华琛 《地球物理学报》1991,34(6):744-752

各不同地点地倾斜固体潮分潮振幅变化能反映出局部地区在应力场附加应力作用下所产生的介质应变变化和应变积累.本文通过对泰安台、马陵山台以及余山台地倾斜NS分量资料的调和分析,分别发现M₂分潮振幅值与1983年菏泽地震（5.9级）及1984年南黄海地震（6.2级）有关的震前应变积累异常变化情况.  相似文献   

全球Schwiderski海潮模型M₂分波在中国大陆产生的应变负荷潮          下载免费PDF全文

吴庆鹏  朱文璐 《地球物理学报》1992,35(3):343-350

本文利用计算应变负荷潮的积分Green函数方法,计算了全球Schwiderski海潮模型M₂分波在中国大陆产生的应变负荷潮.根据负荷潮的分布特点,中国大陆大致可以分成以东经100°为界的东、西两个区域.在东区,负荷潮主要受太平洋海潮的控制;在西部内陆地区,除太平洋海潮外,它们还明显地受印度洋海潮的影响.根据本文计算结果绘制的M₂分波应变负荷潮在中国大陆的地理分布图,为如何正确考虑M₂分波负荷潮对应变固体潮观测结果的影响提供了重要的参考资料.  相似文献   

Drained instability analysis of sand under biaxial loading using a 3D material model     

《Computers and Geotechnics》2016

The diffused and localized instabilities in sand under drained biaxial loading have been analyzed here following a plane strain bifurcation framework, where the rate independent material is defined using a generalized 3D non-associative constitutive model. This study is focused on how various instability modes emerge with respect to initial density, confining pressure, and the applied boundary conditions. Results from large deformation framework have been compared with those from small deformation approximation and the later is noticed to fail in capturing the emergence of diffused modes and predicts delayed onset of localization. The theoretical predictions compares well with existing experimental observations.  相似文献   

Fabric controls on strain accommodation in naturally deformed mylonites: The influence of interconnected micaceous layers     

《Journal of Structural Geology》2016

We present microstructural analyses demonstrating how the geometrical distribution and interconnectivity of mica influences quartz crystallographic preferred orientation (CPO) development in naturally deformed rocks. We use a polymineralic (Qtz + Pl + Kfs + Bt + Ms ± Grt ± Tur) mylonite from the Zanskar Shear Zone, a section of the South Tibetan Detachment (NW Himalaya), to demonstrate how quartz CPO intensity decreases from quartz-dominated domains to micaceous domains, independently of whether or not quartz grains are pinned by mica grains. We then use a bimineralic (Qtz + Ms) mylonite from the Main Central Thrust (NW Himalaya) to show how increasing mica grain connectivity is concomitant with a systematic weakening of quartz CPO. Our results draw distinctions between CPO weakening due to: (i) second phase drag, leading to ineffective recovery in quartz; and (ii) increased transmission and localisation of strain between interconnected mica grains. In the latter case, well-connected micaceous layers take up most of the strain, weakening the rock and preventing straining of the stronger quartz matrix. Our findings suggest that rock weakening in quartz-rich crustal rocks is influenced not only by the presence of mica-rich layers but also the degree of mica grain connectivity, which allows for more effective strain localization through the entire rock mass.  相似文献   

Numerical investigation on the penetration of gravity installed anchors by a coupled Eulerian–Lagrangian approach     

《Applied Ocean Research》2016

Gravity installed anchors (GIAs) are released from a height of 30–150 m above the seabed, achieving velocities up to 19–35 m/s at the seabed, and embed to depths of 1.0–2.4 times the anchor length. Challenges associated with GIAs include the prediction of anchor initial embedment depth, which determines the holding capacity of the anchor. Based on the coupled Eulerian–Lagrangian approach, a numerical framework is proposed in this paper to predict the embedment depth of GIAs, considering the effects of soil strain rate, soil strain-softening and hydrodynamic drag (modeled using a concentrated force), with the anchor-soil friction described appropriately. GIAs are influenced by the hydrodynamic drag before penetrating into the soil completely, hence the anchor accelerates less than the previous investigations in shallow penetration, even decelerates directly at the terminal impact velocity. The hydrodynamic drag has more influence on OMNI-Max anchors (with an error of ∼4.5%) than torpedo anchors, and the effect becomes more significant with increasing impact velocity. An extensive parametric study is carried out by varying the impact velocity, strain rate and strain-softening parameters, frictional coefficient, and soil undrained shear strength. It is concluded that the dominant factor affecting the penetration is the soil undrained shear strength, then are the impact velocity, strain rate dependency and frictional coefficient, and the minimal is the strain-softening of soil. In addition, although the strain rate dependency is partly compensated by the softening, the anchor embedment depth accounting for the effects of strain rate and strain-softening is lower than that for ideal Tresca soil. Strain rate dependency dominates the combined effects of strain rate and strain-softening in the dynamic installation of GIAs, on which should pay more attention, especially for the calibration of the related parameters and the measured solutions. In the end, the theoretical model based on the bearing resistance method is extended by accounting for the hydrodynamic drag effect.  相似文献   

Growth history of fault-related folds and interaction with seabed channels in the toe-thrust region of the deep-water Niger delta     

《Marine and Petroleum Geology》2016

The deep-water fold and thrust belt of the southern Niger Delta has prominent thrusts and folds oriented perpendicular to the regional slope that formed as a result of the thin-skinned gravitational collapse of the delta above overpressured shale. The thrust-related folds have grown in the last 12.8 Ma and many of the thrusts are still actively growing and influencing the pathways of modern seabed channels. We use 3D seismic reflection data to constrain and analyse the spatial and temporal variation in shortening of four thrusts and folds having seabed relief in a study area of 2600 km² size in 2200–3800 m water depth. Using these shortening measurements, we have quantified the variation in strain rates through time for both fault-propagation and detachment folds in the area, and we relate this to submarine channel response. The total amount of shortening on the individual structures investigated ranges from 1 to 4 km, giving a time-averaged maximum shortening rate of between 90 ± 10 and 350 ± 50 m/Myr (0.1 and 0.4 mm/yr). Fold shortening varies both spatially and temporally: The maximum interval shortening rate occurred between 9.5 Ma and 3.7 Ma, and has reduced significantly in the last 3.7 Ma. We suggest that the reduction in the Pliocene-Recent fold shortening rate is a response to the slow-down in extension observed in the up-dip extensional domain of the Niger Delta gravitational system in the same time interval. In the area dominated by the fault-propagation folds, the channels are able to cross the structures, but the detachment fold is a more significant barrier and has caused a channel to divert for 25 km parallel to the fold axis. The two sets of structures have positive bathymetric expressions, with an associated present day uphill slope of between 1.5° and 2°. However, the shorter uphill slopes of the fault-propagation folds and increased sediment blanketing allow channels to cross these structures. Channels that develop coevally with structural growth and that cross structures, do so in positions of recent strain minima and at interval strain rates that are generally less than −0.02 Ma⁻¹ (−1 × 10⁻¹⁶ s⁻¹). However, the broad detachment fold has caused channel diversion at an even lower strain rate of c. −0.002 Ma⁻¹ (−7 × 10⁻¹⁷ s⁻¹).  相似文献   

基于二阶局部纹理熵的边缘检测方法     

刘宸  刘智  刘长建  徐奥 《测绘科学技术学报》2017,34(1)

针对传统的边缘检测方法将灰度变化较为平缓的区域误判为边缘的问题,提出了基于二阶局部纹理熵的边缘检测方法。利用了二阶局部纹理熵能表示局部区域灰度变化大小的性质,并采用灰度错位压缩法消除灰度值压缩造成的条纹现象。实验表明,本文提出的方法能有效地检测出各类边缘,解决了上述的误判问题;通过不同大小窗口的边缘检测效果比较,建议在采用基于二阶局部纹理熵的边缘检测方法时将窗口设置为3×3。  相似文献   

福建台风灾害特征及其防御对策研究   总被引：7，自引：0，他引：7  

魏应植  吴陈锋  孙旭光 《海洋科学》2006,30(10):7-14

根据历史台风路径、强度和灾害实况等资料,对影响福建的台风灾害划分为较大、重大和特大3个等级,同时提出按照3个等级进行科学设防,从而提高防灾抗灾的主动性,减少盲目性。研究表明,(1)在1949~2005年的57 a里,福建共出现特大台风灾害40次,平均约3年出现2次;在所有台风移动路径中,直接登陆型台风的致灾风险最大,闽南-粤东地区是历史上我国大陆遭受特大台风灾害最频繁的地区,平均每年有1个西太平洋台风穿过巴士海峡后在闽南-粤东沿海登陆。(2)地形作用极易在迎风坡形成台风暴雨中心,戴云山脉东南侧的德化、安溪、南安和永春的台风暴雨平均雨量分别是崇武(沿海站)的3.1,2.8,2.7和2.7倍。(3)防台减灾是一个涉及全社会方方面面的科学-社会系统工程,只有政府组织领导,依靠行政手段,动员全社会防灾抗灾,才能把灾害减轻到最小程度。  相似文献