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651.
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653.
岷江上游干扰岸坡主要表生地质灾害分布特征及成因浅析 总被引:3,自引:0,他引:3
岷江上游地处我国著名的南北向地震带的中段,因其特定的地质环境导致区内表生地质灾害极为严重。通过对岷江上游(汶川以上)河段的崩塌、滑坡、泥石流等表生地质灾害的调查研究,其分布沿岷江两岸具有明显的分段特征与河谷地貌分段基本一致,它们形成发展与特定地形地貌、易崩滑或软弱地层、特殊的构造部位、降雨等密切相关。 相似文献
654.
探讨了如何利用地质雷达及浅层地震有关原理判释泥质粉砂岩中隐伏断裂带的性质和特征。主要的工作方法是通过现场实测,分析地质雷达反映在张性断裂带和压性断裂带上的曲线特征,分析浅层地震相遇时距曲线在断裂带上的曲线特征。后者的主要特征有:(1)在断裂带上初至时间延长;(2)在断裂带上左右支时距曲线上下跳动的幅度均等;(3)在断裂带上跳动的长度不一;(4)在断裂带左右支时距曲线上下跳动或反相;(5)时距曲线呈喇叭口。阐明了地质雷达和浅层地震的原理及其在泥质粉砂岩中勘查断裂构造的效果 相似文献
655.
采用基准和基准转换模型的不同会导致GPS观测边长与坐标计算边长不一致。因此由GPS测量的WGS-84坐标系向我国的北京54坐标系转换计算时,应尽可能选择参考点作对比分析。若满足精度要求,可采用全国精密参数作转换计算,若不能满足精度要求或达不到实测点的定位精度,可先将边长作高程异常改正,再对起算点作方位改正。 相似文献
656.
森林火普遍发生在地质历史时期中,它对自然植被系统的演替起着重要作用。不同强度和频率的森林火培育出不同类型的植被:频繁的森林火导致草甸的形成,而热带雨林形成的原因之一是森林火的缺乏。古炭屑作为古森林火的遗迹,具有分布广泛、细胞结构保存完好以及原地埋藏等特点,为研究古森林火发生的强度和频率提供了宝贵的材料。古炭屑的出现与当时的气候因素、植被类型和地理状况有密切关系:干旱、少雨的气候常常伴随高频率森林火的发生,表现出古炭屑的数量增多;易燃物种组成的植被易发生森林火,古炭屑的出现也会增多,而耐火树种会降低森林火的强度,古炭屑则出现少。因此,从古炭屑的数量和种类的变化,可探讨古森林火的发生规律,进而推断长期地质历史时期的气候、植被、地理状况的演变。 相似文献
657.
This work presents a novel neural network‐based approach to detect structural damage. The proposed approach comprises two steps. The first step, system identification, involves using neural system identification networks (NSINs) to identify the undamaged and damaged states of a structural system. The partial derivatives of the outputs with respect to the inputs of the NSIN, which identifies the system in a certain undamaged or damaged state, have a negligible variation with different system errors. This loosely defined unique property enables these partial derivatives to quantitatively indicate system damage from the model parameters. The second step, structural damage detection, involves using the neural damage detection network (NDDN) to detect the location and extent of the structural damage. The input to the NDDN is taken as the aforementioned partial derivatives of NSIN, and the output of the NDDN identifies the damage level for each member in the structure. Moreover, SDOF and MDOF examples are presented to demonstrate the feasibility of using the proposed method for damage detection of linear structures. Copyright © 2001 John Wiley & Sons, Ltd. 相似文献
658.
Passive energy dissipation devices (EDDs), such as viscous dampers, viscoelastic dampers, etc., have been used to effectively reduce the dynamic response of civil infrastructures, such as buildings and bridges, subject to earthquakes and strong winds. The design of these passive energy dissipation devices (EDDs) involves the determination of the optimal locations and the corresponding capacities. In this paper, we present two optimal design methodologies for passive EDDs based on active control theories, including H∞ and H2 performances, respectively. The optimal design methodologies presented are capable of determining the optimal locations and the corresponding capacities of EDDs. Emphasis is placed on the application of linear matrix inequality (LMI) for the effective design of passive EDDs using the popular MATLAB toolboxes. One important advantage of the proposed approaches is that the computation of the structural response is not needed in the design process. The proposed optimal design methodologies have been applied to: (i) a 10‐storey building and a 24‐storey building both subject to earthquake excitations, and (ii) a 76‐storey wind‐excited benchmark building, to demonstrate the advantages of the proposed design methodologies over the conventional equal capacity design. Copyright © 2002 John Wiley & Sons, Ltd. 相似文献
659.
The use of uniform hazard spectra which have the same probability of exceedance at different frequencies has been proposed for the future version of the National Building Code of Canada. Commonly used combination rules to estimate the peak responses of multi‐degree‐of‐freedom (MDOF) systems are the square root of sum of squares rule and the complete quadratic combination rule. However, the probability that the peak response of a MDOF system exceeds the one estimated by using these rules with the peak modal responses from the uniform hazard spectra cannot be inferred directly. The assessment of the probability of exceedance of the peak response of MDOF systems is presented by considering that the uncertainty in seismic excitation due to all potential earthquakes can be lumped in the power spectral density function of the ground acceleration with uncertain model parameters. This probability is evaluated based on the random vibration of linear systems and the first‐order reliability method. It is found that the under‐ or over‐estimations are less than about 5 or 10% if the modal contributions are not within 10–90% of, or not within 20–80% of, the absolute sum of the effective modal peak responses, respectively. Otherwise, severe under‐ or over‐estimation could result. Copyright © 2002 John Wiley & Sons, Ltd. 相似文献
660.