基于正交设计的复杂坝基弹塑性力学参数反演   总被引：8，自引：1，他引：8  

陈益峰  周创兵 《岩土力学》2002,23(4):450-454

复杂坝基弹塑性力学参数反演的计算工作量直接取决于采用何种优化方法。根据大坝在运行期的实测资料，运用有限元正交数值试验、回归分析和优化相结合的方法，反演了坝基岩体的弹塑性力学参数。实例研究表明了该方法的有效性和实用性。  相似文献   

利用GPS实现大跨桥梁的实时安全监测   总被引：6，自引：0，他引：6  

过静珺  徐良  江见鲸 《全球定位系统》2001,26(4):2-8

由于悬索桥跨度大，台风、地震、车载和温度变化对桥梁变形影响很大，对大桥实时监测，获取桥梁在上述环境下的工作状况，验证结构的抗风、抗震分析的特征参数，成为大桥安全性研究的重大课题。为连续实时监测大跨染在环境如台风、地震、车载和温度作用下的位移变形，通过比较几种桥梁传统的位移测量方法，提出利用GPS技术实时监测桥梁位移和转角的新方法，该系统能精确记录大桥的温度变化、车载、风荷载下桥梁变形的位移和模态特性，这些数据在评估大桥安全性和交通安全方面有着重要作用。  相似文献   

腰盘黄间隙的CT测量及其临床价值   总被引：2，自引：1，他引：2  

杨涛  许安荣  葛锋铭  卫光明  童吉华 《CT理论与应用研究》2001,10(3):33-35

目的 评价盘黄间隙对腰椎间盘突出的诊断价值。材料与方法 回顾性分析２００例腰椎间盘ＣＴ扫描资料，记录Ｌ３－Ｓ１间盘形态及双侧黄韧带厚度、盘黄间隙的宽度，分析这些结构与盘黄间隙狭窄及其对腰神经根压迫的关系。结果１９６个间盘突出或膨出，７８处黄韧带厚度＞５ｍｍ，腰盘黄间隙（ＤＦＬＳ）为腰间盘平面位于椎管外侧份间盘与黄韧带间的间隙。１７２侧显示腰神经根鞘受压，相应盘黄间隙平均宽度为（３．６± ０．８）ｍｍ。结论 ＤＦＬＳ＆ｐｏｕｎｄ；５ｍｍ为狭窄，主要原因包括；间盘突出或膨出、黄韧带肥厚等。它可以作为腰间盘突出伴神经根压迫的可靠依据。  相似文献   

水与流体饱和孔隙介质界面上非镜面反射声场的实验研究   总被引：5，自引：0，他引：5  

诸国桢  朱喜福  郭宏智 《地球物理学报》2001,44(1):83-92

用光学法和发射-接收法研究了水与流体饱和孔隙介质界面上声波的非镜面反射声场．测量了入射角θ_i为16°－80°范围内的反射系数R，记录了θ_i在Rayleigh波临界角θ_c附近±4°范围内两束反射波的反射角、波束位移△、波形和频谱．实验发现：(1)在θ_c附近±4°范围内，观察到θ_i两束反射波A和B，其中波束B沿界面有波束位移△，实验测出△随θ_i增大而减小，并非在θ_i=θ_c时最大．(2)反射角等于θ_i的波束的频谱很接近于入射波的频谱，反射角等于θ_c的波束的频谱相对于入射波有频谱的负偏移．(3)波束A的相位与发射换能器直达波的相位一致，波束B的相位与波束A相反  相似文献   

夯扩桩成桩过程引起的挤土效应分析   总被引：3，自引：0，他引：3  

黄生根  曹辉 《岩土工程技术》2001,(1):53-56

夯扩桩在成桩过程中会产生挤土效应。通过采用柱形孔扩张理论，推导出砂土中形成扩大头时引起的挤土影响半径和土体位移，并对一工程实例进行了分析。  相似文献   

滑坡滑动面位置的确定及超前预测   总被引：2，自引：0，他引：2  

靳晓光  王兰生  李晓红 《中国地质灾害与防治学报》2001,12(1):10-12

依据滑坡深部位移信息,分析滑坡“B”型、“D”型、“r”型变形特征，确定滑坡滑动面位置，提出了滑坡滑动面位置超前预测的位移矢量法。为系统分析及超前预测滑坡滑动面位置提供依据，为深入研究滑坡运动特征提供信息。  相似文献   

Recent applications of sliding block theory to geotechnical design   总被引：3，自引：0，他引：3  

Hoe I. Ling 《Soil Dynamics and Earthquake Engineering》2001,21(3)

The sliding block theory was proposed by Newmark for determining the permanent displacement of embankments and dams under earthquake loading. This paper highlights recent applications of sliding block theory to different geotechnical structures. The equations to determine seismic factor of safety, yield acceleration and permanent displacement are given for rock block, soil slope, landfill cover, geosynthetic-reinforced soil retaining wall, and composite breakwater. The presented equations for seismic stability degenerate to that of static stability in the absence of earthquake. The permanent displacement for various structures can be obtained from that of a horizontal sliding block through a correction factor. A simplified procedure is included for the permanent displacement under vertical acceleration. The sliding block approach is rational for design under high seismic load.  相似文献   

A note on the useable dynamic range of accelerographs recording translation   总被引：2，自引：0，他引：2  

M. D. Trifunac  M. I. Todorovska 《Soil Dynamics and Earthquake Engineering》2001,21(4)

Since the late 1970s, the dynamic range and resolution of strong motion digital recorders have leaped from 65 to 135 dB, opening new possibilities for advanced data processing and interpretation. One of these new possibilities is the calculation of permanent displacement of the ground or of structures, associated with faulting or with non-linear response. Proposals on how permanent displacements could be recovered from recorded strong motion have been published since 1976. The analysis in this paper concludes that permanent displacements of the ground and of structures in the near-field can be calculated provided all six components of strong motion (three translations and three rotations) have been recorded, and the records are corrected for transducer rotation, misalignment and cross-axis sensitivity.  相似文献   

Evolution of accelerographs, data processing, strong motion arrays and amplitude and spatial resolution in recording strong earthquake motion   总被引：1，自引：0，他引：1  

M. D. Trifunac  M. I. Todorovska 《Soil Dynamics and Earthquake Engineering》2001,21(6)

This paper presents a review of the advances in strong motion recording since the early 1930s, based mostly on the experiences in the United States. A particular emphasis is placed on the amplitude and spatial resolution of recording, which both must be ‘adequate’ to capture the nature of strong earthquake ground motion and response of structures. The first strong motion accelerographs had optical recording system, dynamic range of about 50 dB and useful life longer than 30 years. Digital strong motion accelerographs started to become available in the late 1970s. Their dynamic range has been increasing progressively, and at present is about 135 dB. Most models have had useful life shorter than 5–10 years. One benefit from a high dynamic range is early trigger and anticipated ability to compute permanent displacements. Another benefit is higher sensitivity and hence a possibility to record smaller amplitude motions (aftershocks, smaller local earthquakes and distant large earthquakes), which would augment significantly the strong motion databases. The present trend of upgrading existing and adding new stations with high dynamic range accelerographs has lead to deployment of relatively small number of new stations (the new high dynamic range digital instruments are 2–3 times more expensive than the old analog instruments or new digital instruments with dynamic range of 60 dB or less). Consequently, the spatial resolution of recording, both of ground motion and structural response, has increased only slowly during the past 20 years, by at most a factor of two. A major (and necessary) future increase in the spatial resolution of recording will require orders of magnitude larger funding, for purchase of new instruments, their maintenance, and for data retrieval, processing, management and dissemination. This will become possible only with an order of magnitude cheaper and ‘maintenance-free’ strong motion accelerographs. In view of the rapid growth of computer technology this does not seem to be (and should not be) out of our reach.  相似文献   

Evolution of 3D tectonic stress field and fault movement in North China   总被引：2，自引：0，他引：2  

陈连旺  陆远忠  郭若眉  许桂林  张杰 《地震学报(英文版)》2001,14(4):371-383

IntroductionThe research on stress field interior the Earth is an either relative old or young branch of geoscience. Early in the 20th century, in order to learn the state of inner stress field, a few scholars had used simple ideal model to analyze big scale tectonic conformations and activities according to tide, gravity, rotation and inner thermal materials. So far, lots of problems on the state of the Earth stress field have not been solved completely yet. The origin of stress field, the d…  相似文献