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161.
Zusammenfassung Ruhig gelagerte Sedimentgesteine eignen sich im besonderen Maße für grundsätzliche Untersuchungen zur Kluftentstehung. Die Klüftung erreicht nämlich ihre größte Regelmäßigkeit und Vollendung in Gebieten mit nahezu horizontal liegenden Sedimentgesteinen, in denen andere tektonische Strukturen kaum oder überhaupt nicht auftreten (Secor, 1965: 634).In den untersuchten, annähernd horizontal gelagerten, geschichteten Sedimentgesteinen Südwestdeutschlands sind zwei Kluftscharen entwickelt, die normal zueinander sowie normal zu den Schichtflächen stehen. Die Kluftscharen sind hinsichtlich Streuung, Rauhigkeit, Kluftabstand und Durchtrennungsgrad ungleichwertig entwickelt. Diese ungleiche Entwicklung läßt sich sowohl in den kompetenten (Kalk-, Sandsteine) als auch in den inkompetenten (Mergel, Tonstein) Schichten beobachten.Mit Hilfe experimenteller und rechnerischer Untersuchungen wird versucht, eine mechanisch sinnvolle Erklärung des geologischen Sachverhaltes zu finden. Eine wesentliche Rolle spielt dabei die Tatsache, daß das Gebirge hinsichtlich der in ihm entwickelten Klüfte als ein inhomogener, geschichteter Körper anzusehen ist. Es läßt sich zeigen, daß die beobachteten natürlichen und künstlichen Kluftsysteme am besten erklärt werden können, wenn die größte Hauptnormalspannung als vertikal gerichtet angenommen wird. Entscheidend für die gerichtete Anlage der Kluftstrukturen sind (zum Teil nur geringfügige) Betragsdifferenzen der zwei horizontal gerichteten kleineren Normalspannungen.
Smoothly layered sedimentary rocks are particularly suited for fundamental investigations on joint generation, because jointing reaches its ultimate regularity and perfection in areas of near-horizontal sedimentary strata where other types of structural deformation are scare or absent (Secor, 1965: 634).The near-horizontal, stratified sedimentary rocks of southwest-Germany are investigated where two joint sets are developed in a position approximately normal to each other and normal to the bedding planes. The joint sets are nonsimilar in variance of joint orientation, asperities, joint spacing, and degree of separation. This nonsimilar development of the joint sets can be observed in competent layers (limestones, sandstones) as well as in incompetent ones (marls, claystones).It is attempted to find a mechanically efficient interpretation of the observed joint system by means of arithmetical and experimental investigations. It is important hereby that due to its jointing the rock mass has the property of an inhomogeneous, layered body. It can be shown, that the natural joint systems are in agreement with the artificially produced fracture pattern only in the case, when the major principal stress is in vertical direction. Partly only small differences in magnitude between the horizontally directed intermediate and minor princjpal stresses are decisive for the systematic arrangement of the joints.

Résumé Les roches sédimentaires en gisement calme se prêtent particulièrement bien à des recherches sur la genèse des diaclases. Ce système de joints atteint en effet sa «régularité et sa perfection les plus grandes dans les régions à roches sédimentaires horizontales ou presque, dans lesquelles d'autres structures tectoniques n'apparaissent pas ou guère» (Secor, 1965: 634).Dans les roches sédimentaires presqu'horizontales étudiées en Allemagne du Sud, deux groupes de diaclases parallèles se sont développés perpendiculairement l'un par rapport à l'autre ainsi que par rapport aux plans de stratification. Ces groupes de diaclases parallèles se sont développés inégalement quant à leur dispersion, leur rugosité, leur écartement et leur ouverture. Ce développement inégal peut s'observer à la fois dans les couches «compétentes» (calcaires, grès) et dans les couches «incompétentes» (marnes, argilites).A l'aide de calculs et de recherches expérimentales, on a tenté de trouver une explication mécaniquement plausible de ce comportement géologique. Le rôle essentiel joué dans ce cas est celui de la chaîne qui doit être considérée du point de vue des diaclases comme un corps stratifié non homogène. On peut montrer que les systèmes naturels et artificiels de diaclases observés peuvent le mieux s'expliquer si l'on accepte que la contrainte normale principale la plus forte est orientée verticalement. Des différences (en partie même faibles) entre les deux contraintes normales mineures orientées horizontalement sont décisives pour l'orientation structurale des systèmes de diaclases.

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162.
The global navigation satellite system receiver for atmospheric sounding (GRAS) on MetOp-A is the first European GPS receiver providing dual-frequency navigation and occultation measurements from a spaceborne platform on a routine basis. The receiver is based on ESA’s AGGA-2 correlator chip, which implements a high-quality tracking scheme for semi-codeless P(Y) code tracking on the L1 and L2 frequency. Data collected with the zenith antenna on MetOp-A have been used to perform an in-flight characterization of the GRAS instrument with focus on the tracking and navigation performance. Besides an assessment of the receiver noise and systematic measurement errors, the study addresses the precise orbit determination accuracy achievable with the GRAS receiver. A consistency on the 5 cm level is demonstrated for reduced dynamics orbit solutions computed independently by four different agencies and software packages. With purely kinematic solutions, 10 cm accuracy is obtained. As a part of the analysis, an empirical antenna offset correction and preliminary phase center correction map are derived, which notably reduce the carrier phase residuals and improve the consistency of kinematic orbit determination results.
Oliver MontenbruckEmail:
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163.
Ben-Z.  Y 刘力强 《地震地质》2000,22(4):423-426
1998年 6月在美国南加州地震中心学术会议期间 ,曾举行过一次关于地震与断层行为的物理本质的讨论会 ,内容包括地震成核 ,断裂传播及抑制 ,地震活动的时空模式 ,断层的相互作用 ,断层系统的演化等。加深对地震物理过程的理解有助于提高对未来地震发生地点、震级、时间的概率估算能力 ,改善地震灾害的评估方法。它使科学家能把动态破裂与地震波传播的模拟结合到地震危险性分析模型中 ,从而合成设定地震的强地面运动时间过程 ,这是动态结构抗震设计的基础。这一问题牵涉到诸多领域 ,如连续介质力学、统计物理学、室内实验与野外观测等。来自各大学、美国地质调查局、国家实验室与政府机构的 5 3名代表参加了讨论会 ,对比各自的研究结果 ,讨论未来研究的关键性问题。以下是会议发言要点。Ben -Zion综述了在断裂力学、损伤流变学、颗粒力学 (granularmechanics)、统计物理学方面的进展。当不存在一个统一的地震物理学框架时 ,连续固体材料的运动方程也许是一个好的选择。这些方程与尺度无关 ,即变形过程产生幂律统计学上的自相似模式。这种模式在地震现象中比比皆是。然而 ,在流变学与构造研究中 ,尺度效应会导致与自相似模  相似文献   
164.
We investigate interseismic deformation across the San Jacinto fault at Anza, California where previous geodetic observations have indicated an anomalously high shear strain rate. We present an updated set of secular velocities from GPS and InSAR observations that reveal a 2–3 km wide shear zone deforming at a rate that exceeds the background strain rate by more than a factor of two. GPS occupations of an alignment array installed in 1990 across the fault trace at Anza allow us to rule out shallow creep as a possible contributor to the observed strain rate. Using a dislocation model in a heterogeneous elastic half space, we show that a reduction in shear modulus within the fault zone by a factor of 1.2–1.6 as imaged tomographically by Allam and Ben-Zion (Geophys J Int 190:1181–1196, 2012) can explain about 50 % of the observed anomalous strain rate. However, the best-fitting locking depth in this case (10.4 ± 1.3 km) is significantly less than the local depth extent of seismicity (14–18 km). We show that a deep fault zone with a shear modulus reduction of at least a factor of 2.4 would be required to explain fully the geodetic strain rate, assuming the locking depth is 15 km. Two alternative possibilities include fault creep at a substantial fraction of the long-term slip rate within the region of deep microseismicity, or a reduced yield strength within the upper fault zone leading to distributed plastic failure during the interseismic period.  相似文献   
165.
We present new detailed analyses of samples of pulverized Tejon Lookout granite collected from sections adjacent to the San Andreas and Garlock faults in southern California. The Tejon Lookout granite is pulverized in all exposures within about 100 m from both faults. Chemical analyses indicate no or little weathering in the collected samples, although XRD analysis shows the presence of smectite, illite, and minor kaolinite in the clay-size fraction. Weathering products may dominate in the less than 1 micron fraction. The average grain size in all samples of pulverized Tejon Lookout granite ranges between 26 and 208 microns (silt to fine sand), with the particle size distribution in part a function of proximity to the primary slip zone. The San Andreas fault samples that we studied are generally finer grained than those collected from adjacent to the Garlock fault. The particle size distribution for each studied sample from both faults follows a pseudo-power law with a continuously changing exponent, which suggests that pulverization is not simply a consequence of direct shear. The average particle size that we determined for our samples is considerably coarser than reported in previous investigations, which we attribute to possible measurement errors in the prior work. Our data and observations suggest that dynamic fracturing in the wall rock of the San Andreas and Garlock faults only accounts for about 1% or less of the earthquake energy budget.  相似文献   
166.
We perform analytical and numerical studies of scaling relations of earthquakes and partition of elastic strain energy between seismic and aseismic components using a thermodynamically based continuum damage model. Brittle instabilities occur in the model at critical damage level associated with loss of convexity of the strain energy function. A new procedure is developed for calculating stress drop and plastic strain in regions sustaining brittle instabilities. The formulation connects the damage rheology parameters with dynamic friction of simpler frameworks, and the plastic strain accumulation is governed by a procedure that is equivalent to Drucker–Prager plasticity. The numerical simulations use variable boundary forces proportional to the slip-deficit between the assumed far field plate motion and displacement of the boundary nodes. These boundary conditions account for the evolution of elastic properties and plastic strain in the model region. 3-D simulations of earthquakes in a model with a large strike-slip fault produce scaling relations between the scalar seismic potency, rupture area, and stress drop values that are in good agreement with observations and other theoretical studies. The area and potency of the simulated earthquakes generally follow a linear log–log relation with a slope of 2/3, and are associated with stress drop values between 1 and 10 MPa. A parameter-space study shows that the area-potency scaling is shifted to higher stress drops in simulations with parameters corresponding to lower dynamic friction, more efficient healing, and higher degree of seismic coupling.  相似文献   
167.
168.
The recent development of intermodal transportation and the relaxation of U.S. transport regulations have encouraged ocean carriers to rationalize their port schedules. Container shipping is therefore believed to concentrate shipping at a few large ports. Port traffic analysis, using the Lorenz Curve and Gini Coefficient, reveals, nevertheless, that the structure of the U.S. port system is actually becoming less concentrated. The challenge of secondary ports and changes in the transportation system explain this deconcentration.  相似文献   
169.
We investigate the evolution of seismicity within large earthquake cycles in a model of a discrete strike-slip fault in elastic solid. The model dynamics is governed by realistic boundary conditions consisting of constant velocity motion of regions around the fault, static/kinetic friction and dislocation creep along the fault, and 3D elastic stress transfer. The fault consists of brittle parts which fail during earthquakes and undergo small creep deformation between events, and aseismic creep cells which are characterized by high ongoing creep motion. This mixture of brittle and creep cells is found to generate realistic aftershock sequences which follow the modified Omori law and scale with the mainshock size. Furthermore, we find that the distribution of interevent times of the simulated earthquakes is in good agreement with observations. The temporal occurrence, however, is magnitude-dependent; in particular, the small events are clustered in time, whereas the largest earthquakes occur quasiperiodically. Averaging the seismicity before several large earthquakes, we observe an increase of activity and a broadening scaling range of magnitudes when the time of the next mainshock is approached. These results are characteristics of a critical point behavior. The presence of critical point dynamics is further supported by the evolution of the stress field in the model, which is compatible with the observation of accelerating moment release in natural fault systems.  相似文献   
170.
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