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51.
碳酸盐岩中"假纹层构造"的成因分析 总被引:1,自引:1,他引:0
常见于泥微晶碳酸盐岩中的毫米级水平纹层是低能沉积环境特有的相标志.川东北地区长兴组-飞仙关组碳酸盐岩地层无岩芯钻探的岩屑中,通过岩石薄片鉴定发现该层段岩屑样品中,大量岩屑出现纹层构造,甚至水动力条件下不可能形成水平纹层构造的颗粒碳酸盐岩、结晶碳酸盐岩中也有出现,通过对这些现象的薄片鉴定、电子探针及Kα元素面分布等分析手段证实其为非沉积成因、非构造成因的"假纹层构造",研究后将其归因为钻探工艺所使用的钻头(PDC型).为准确对岩石薄片进行鉴定并提升无岩芯钻井地质剖面的解释质量,针对沉积动力学、构造动力学和制片工艺学都无法解释的"假纹层构造"的成因分析具有十分重要的现实意义. 相似文献
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北京市地面塌陷特征与致灾因子分析 总被引:1,自引:0,他引:1
年北京地面塌陷呈波动式上升趋势,威胁严重.在讨论其孕灾环境和时空分布特征的基础上,分析引起地面塌陷的因素.研究把此区地面塌陷分为采矿地面塌陷和工程地面塌陷两种类型.采矿地面塌陷主要分布于西山门头沟,致灾因子包括开采深度、矿体倾角、降雨、和大量疏排水.工程地面塌陷主要分布于城区,致灾因子包括管线渗漏与侵蚀、地下水过度开采... 相似文献
55.
以变形作为控制条件的基坑支护结构设计是一个十分复杂的工程问题,由于支点法具有计算模式明确、过程简单的优点,受到广大工程设计人员的欢迎。但是,支点法中土抗力系数卅的选取是工程界的一大难题,在支点法计算中m值选取的准确性直接影响支护结构位移和内力的计算结果,所以将支点法建模及反分析方法应用于实际工程,在开挖过程中考虑了支撑变形的非线性,开发了FORTRAN程序对支护结构进行了反演计算。通过反演分析m值并预测支护结构的变形,实现支护动态设计信息化施工。结果表明,位移反分析法进行深基坑工程中的参数反演与位移预测取得比较好的效果,说明该方法在深基坑开挖反演、预测方面是合理可行的。 相似文献
56.
The Teplá–Barrandian unit (TBU) of the Bohemian Massif exposes a section across the once extensive Avalonian–Cadomian belt, which bordered the northern active margin of Gondwana during late Neoproterozoic. This paper synthesizes the state-of-the-art knowledge on the Cadomian basement of the TBU to redefine its principal component units, to revise an outdated stratigraphic scheme, and to interpret this scheme in terms of a recent plate-tectonic model for the Cadomian orogeny in the Bohemian Massif. The main emphasis of this paper is on an area between two newly defined fronts of the Variscan pervasive deformation to the NW and SE of the Barrandian Lower Paleozoic overlap successions. This area has escaped the pervasive Variscan (late Devonian to early Carboniferous) ductile reworking and a section through the Cadomian orogen is here superbly preserved.The NW segment of the TBU consists of three juxtaposed allochthonous belts of unknown stratigraphic relation (the Kralovice–Rakovník, Radnice–Kralupy, and Zbiroh–?árka belts), differing in lithology, complex internal strain patterns, and containing sedimentary and tectonic mélanges with blocks of diverse ocean floor (meta-)basalts. We summarize these three belts under a new term the Blovice complex, which we believe represents a part of an accretionary wedge of the Cadomian orogen.The SE segment of the TBU exposes the narrow Pi?ín belt, which is probably a continuation of the Blovice complex from beneath the Barrandian Lower Paleozoic, and a volcanic arc sequence (the Davle Group). Their stratigraphic relation is unknown. Flysch units (the ?těchovice Group and Svrchnice Formation) overlay the arc volcanics, and both units contain material derived from volcanic arc. The former was also sourced from the NW segment, whereas the latter contains an increased amount of passive margin continental material. In contrast to the Blovice complex, the flysch experienced only weak Cadomian deformation.The new lithotectonic zonation fits the following tectonic scenario for the Cadomian evolution of the TBU well. The S- to SE-directed Cadomian subduction beneath the TBU led to the involvement of turbidites, chaotic deposits, and 605 ± 39 Ma ocean floor in the accretionary wedge represented by the Blovice complex. The accretionary wedge formation mostly overlapped temporally with the growth of the volcanic arc (the Davle Group) at ~ 620–560 Ma. Upon cessation of the arc igneous activity, the rear of the wedge and some elevated portions of the arc were eroded to supply the deep-water flysch sequences of the ?těchovice Group, whereas the comparable Svrchnice Formation (~ 560 to < 544 Ma) was deposited in a southeasterly remnant basin close to the continental margin. The Cadomian orogeny in the TBU was terminated at ~ 550–540 Ma by slab breakoff, by final attachment of the most outboard ~ 540 Ma oceanic crust, and by intrusion of ~ 544–524 Ma boninite dikes marking the transition from the destructive to transform margin during the early/middle Cambrian. 相似文献
57.
Complex system approach to interpretation of monitoring time series: two case histories from NW Bohemia 总被引:1,自引:1,他引:0
Ever wider implementation of information technologies is flooding us by monitoring data. To an efficient risk management,
those data have to be processed and assessed in the same rate as they are recorded and transported. Paper demonstrates some
methods dealing with intrinsic, nonlinear dynamics of slope system for computerized safety assessment of monitoring time series,
their modeling and early warning launching. Analysis and modeling of phase changes – i.e. specific transient states between
different developmental stages of dynamics of unstable slope systems, enabled to fix new types of precursors for rock fall
warning and to enhance time prediction of rock fall occurrence. Mathematically well based, novel numerical and topological
methods from the toolbox of complex system theory were successfully implemented to that challenge. Their pattern-recognition
ability, i.e., diagnostic sensitivity, and more realistic results of modeling of time series relevant patterns have reached
beyond ranges of regularly used—both the idea- and the data-driven—methods. Moreover, results yielded by phase space analyses
are in good agreement with the ones by numerical fractal analyses. Obtained results have strengthened the primary, mainly
theoretically based hypothesis; the dynamics of an unstable rock slope has to be considered as behavior of nonlinear, dissipative,
non-equilibrium, self-organizing complex system. Correspondingly to the theoretical assumptions, two qualitatively different
types of slope system dynamics—near to equilibrium and far from equilibrium states, were identified. All field monitoring
data used originated in practice of highly automated, integrated IT system of monitoring assessment, and management of rock
fall hazard at sandstone rock walls in the NW Bohemia. 相似文献
58.
Spatial and temporal analysis of global seismological data 1964–2005 reveals a distinct teleseismic earthquake activity producing
a columnar-like formation in the continental wedge between the Krakatau volcano at the surface and the subducting slab of
the Indo-Australian plate. These earthquakes occur continuously in time, are in the body-wave (m
b) magnitude range 4.5–5.3 and in the depth range 1–100 km. The Krakatau earthquake cluster is vertical and elongated in the
azimuth N30°E, suggesting existence of a deep-rooted fault zone cutting the Sunda Strait in the SSW-NNE direction. Possible
continuation of the fault zone in the SW direction was activated by an intensive 2002/2003 aftershock sequence, elongated
in the azimuth of N55°E. Beneath the Krakatau earthquake cluster, an aseismic gap exists in the Wadati-Benioff zone of the
subducting plate at the depths 100–120 km. We interpret this aseismic gap as a consequence of partial melting inhibiting stress
concentration necessary to generate stronger earthquakes, whereas the numerous earthquakes observed in the overlying lithospheric
wedge beneath the volcano probably reflect magma ascent in the recent plumbing system of the Krakatau volcano. Focal depth
of the deepest events (~100 km) of the Krakatau cluster constrains the location of the primary magma generation to greater
depths. The ascending magmatic fluids stress fault segments within the Sunda Strait fault zone and change their friction parameters
inducing the observed tectonic earthquakes beneath Krakatau. 相似文献
59.
60.
大平沟地区位于北东向阿尔金走滑断裂北侧与东西向阿尔金北缘断裂所夹持的区域。区内出露卓阿布拉克组火山-沉积岩系,其中以灰黑色粉砂质泥岩为代表的沉积岩系出露宽度3~5km,是相邻20km的东侧喀腊大湾地区出露厚度(约1km)的3~5倍。通过野外详细的地质调查,特别是运用小褶皱分析方法、褶皱层理与轴面劈(片)理关系判别分析方法,首次对阿尔金山东段大平沟地区的卓阿布拉克组火山-沉积岩系中的沉积岩夹层沿剖面开展追索研究,恢复了大平沟地区褶皱构造的轮廓,并对其成因进行初步探讨。认为南侧喀腊达坂-阿克达坂断裂以南的元古宇碳酸盐岩系较强硬的岩层、北侧阿尔金北缘断裂以北的太古宇结晶基底的刚性岩块、以灰黑色粉砂质泥岩为代表的细碎屑岩的柔性特点、冰沟岩体隆升造成其东侧盖层向东收缩是基础,而北北东向区域挤压构造应力场作用下北东东向卓阿布拉克断裂的左行走滑造成的卓阿布拉克组沉积岩系西端的侧向挤压是褶皱形成的直接原因。 相似文献