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本文所謂架空結構是指搁置在較高的支墩上的連續梁結構,例如高架橋梁或水電站的架空輸水管道等。這類結構在承受震動荷載(例如地震)時,常會引起較大的變形和应力。如支墩較粗矮,則在計算較低的頻率時,其作用可近似的以一彈簧支座代替之,而忽略支墩本身的結構震動影響。這是一個常用的假定,可以使計算工作充分簡化。本文首先對這一情况作了詳盡討論,給出较完整的解答,包括起始條件影響在内,並提出用“載常數”及“形常數”的觀念來進行計算。然后本文給出考虑支墩的震動影響時的精確解答,分別就縱横方向的震動進行討論,並指出近似計算公式和精確公式间的關係,近似公式只能在支墩較剛固和計算较低階的頻率時才適用。文中列出了結構作横向諧和震動時的特別解答,可見其計算工作量將比近似法增加不少。 相似文献
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北京及其周围的天津、唐山、张家口地区,人口稠密,是历史上地震多发地区.对这一地区的地震监测,是国家地震局的主要任务之一.近年来,这一地区已架设了一系列用于监测地震的观测网.北京台网是我国最密、观测条件最好的地震观测网,约有36个地震台,遍布在京、津、唐、张地区,可以直接监测北京地区1级以上的地震.除了直接观测地震外,作为与地震有 相似文献
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在反射地震勘探中,我們時常可以用直綫射綫的假定,求出反射層的位置、深度、傾角及平均速度等重要資料的近似值。在很多情况下,這種計算法具有一定的方便或必要。本文論列幾種比較廣泛,在實際工作中常會遇到的例子。 相似文献
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確立地震烈度的標準問題,迄今尚未能够很好地解決,許多不同的情况尚待研究,模型試驗還須要做,然而我們不能等待,國家大規模的建設,正在進行,馬上就需要地震資料,來確定必要的抗震措施,使建立在地震區域內的人民事業得到適當的安全。這個安全係數不能偏於保守,亦不能偏於冒險,在尚沒有很好的科學標 相似文献
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Summary In this paper two methods for analysing in real time (or on line) microseisms recorded near a coast, with the aim to deduce their fundamental periods and evolution, are presented. Firstly, the autocorrelation of microseisms as a random signal is derived, whereas the second method consisting in a frequential filtering is more extensively used. The application of these methods is also made for simultaneously recorded microseisms in Genoa and in Vesima-Arenzano (station placed just on shore-line). The results show that in Genoa the peak amplitude ratio between secondary and primary microseisms is varying in the range of 3–28, whereas in Vesima this ratio is about the unity. This behaviour is explained on account of the different breaking zones for the two stations.Istituto Geofisico e Geodetico, Università di Genova, 16100 Genoa, Italy. Contribution No. 249. — This work has been supported by the Consiglio Nazionale delle Ricerche (comitato Nazionale per le Scienze Fisiche), Roma. 相似文献
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Rayleigh面波地震背景噪声成像技术已被成功运用到全球范围不同尺度的地球内部结构的研究中,并以背景噪声场是时空均匀分布为前提假设.然而真实的噪声源分布的时空非均匀性将导致经验格林函数提取存在偏差,最终影响噪声成像结果的精准性.近年来,噪声源分布特征研究逐步成为提高噪声成像精准度、深化地震背景噪声成像的关键问题.本文利用频率-波束域分析法对中国西北地区的一个大孔径台阵(WuTan Array,简称WTA)在2014全年的垂直分量连续记录做了聚束分析,研究了Rayleigh波噪声源分布特征.结果显示:WTA台阵成功探测到了10~20s周期范围的来自于全球不同方位的Rayleigh波噪声信号,其源区分布具有明显的季节变化特征:冬季集中分布在北大西洋方位,而夏季则转为印度洋方位噪声信号最强.此外,Rayleigh波噪声源区空间分布还表现出一定的频率依赖性,即在较低频段(0.0488~0.0635Hz)在北大西洋、北太平洋、印度洋及西太平洋四个方位均有分布;而在频率较高频段(0.0928~0.1025Hz)则集中分布于西太平洋方位.Rayleigh波噪声源时空分布特征和频率依赖性与海洋活动本身的季节性变化和频谱特征有关.并初步推测本文所观测到的Rayleigh波是由加剧的海浪运动直接作用于海岸、大陆架或海底而激发产生的第一类地脉动噪声信号. 相似文献
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P. Bernard 《Pure and Applied Geophysics》1973,103(1):274-281
Summary Microseismic recordings have been made in Brest (Hydrographic Office), Hendaye (Abbadia Observatory) and La Corua (Observatorio meteorologico), and compared with Paris-St Maur. The amplitude ratio Brest/St Maur is dependent on the place of low atmospheric centers and the duplication of the central isobar of these seems to give rise to stronger microseisms. Swell propagation can also be timed between La Coruna and Morocco and between station K and Hendaye. Pyramidal waves are again emphasized as the cause of microseisms. 相似文献
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Summary Microseisms recorded by short-period vertical-component seismographs in a network of permanent and temporary stations in Sweden are investigated by means of their power spectra. The geographical distribution of the microseisms is explained in terms of models involving line sources. A good fit to the observations is obtained by locating the line sources along the surrounding oceanic coasts. The Norwegian west coast is of dominant importance for medium- and long-period microseisms, whereas for the short-period ones also coasts of smaller sea basins, as the Baltic Sea and the Skagerrak, are of significance. As a consequence, it is found that short-period microseisms are largest at stations on or near oceanic coasts, and that the smallest microseisms occur at inland stations. 相似文献
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本文介绍了应用电磁反馈零位检测技术改装的重力仪进行高频信息的观测。阐述重力仪高频信息频谱分布特征、数据采集、数字计算和随机信息的处理方法。利用高频信息可以很好地观测和研究地脉动,给出北京香山地震台利用重力仪高频信息观测所得的地脉动功率谱。分析了地脉动特征及其与台风过程的关系;讨论了某些大地震前所出现的地脉动异常现象。得出北京地区正常地脉动频率分布范围为0.13-0.32Hz,优势频率为0.2Hz,相应的卓越周期为5s的脉动频率异常,也可能在地脉动的正常频率处(0.2Hz左右),出现幅度很大的脉动幅度异常,后者又往往与台风引起的幅度异常相混淆。 相似文献
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Uwe Walzer 《Pure and Applied Geophysics》1972,95(1):89-98
Summary Oscillatory paths of microseisms and special characteristics of these paths at Central European and Cuban stations have been examined and compared. The question of the origin of the microseisms is also discussed. 相似文献
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利用海南地震台网宽频带地震仪连续观测资料,分析不同自然环境下地脉动扰动信号,结果显示:在不同自然环境下,地震仪记录的地脉动扰动信号的形态、振幅、频率、扰动强度不同,其中登陆海岛的热带气旋引起的震颤信号频带窄、能量大、扰动强度较大,对地脉动干扰影响大,其次是天文潮期,远离海岛的热带气旋对地脉动干扰影响较小;不同路径、距离的热带气旋引起的震颤信号频率带一致,但扰动强度区别明显;不同自然环境对不同观测台站记录的地脉动信号均存在影响,只是程度稍有不同。 相似文献
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Statistical characteristics and stationarity properties of low-frequency seismic signals 总被引:1,自引:0,他引:1
Statistical properties of microseismic signals are studied in the frequency range 0.03–15 Hz at various points of the Earth near and far from sources of microseisms. It is found that various frequency ranges differ in the property of stationarity. The minimum interval of stationarity of microseisms in the range 0.12–1.1 Hz is estimated at 1–1.5 h. A conclusion is drawn that the measurement accuracy of the spectral density of microseisms cannot be improved above a certain limit by increasing the time of signal stacking. 相似文献
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The temporal and spatial distributions of Antarctic sea ice play important roles in both the generation mechanisms and the signal characteristics of microseisms. This link paves the way for seismological investigations of Antarctic sea ice. Here we present an overview of the current state of seismological research about microseisms on Antarctic sea ice. We first briefly review satellite remote-sensing observations of Antarctic sea ice over the past 50 years. We then systematically expound upon the generation mechanisms and source distribution of microseisms in relation to seismic noise investigations of sea ice, and the characteristics of Antarctic microseisms and relationship with sea ice variations are further analyzed. We also analyze the continuous data recorded at seismic station BEAR in West Antarctica from 2011 to 2018 and compare the microseism observations with the corresponding satellite remote-sensing observations of Antarctic sea ice. Our results show that:(1) the microseisms from the coastal regions of West Antarctica exhibit clear seasonal variations, SFM with maximum intensities every April-May and minimum intensities around every October-November; while DFM intensities peak every February-March, and reach the minimum around every October. Comparatively, the strong seasonal periodicity of Antarctic sea ice in better agreement with the observed DFM; and (2) microseism decay is not synchronous with sea ice expansion since the microseism intensity is also linked to the source location, source intensity (e.g., ocean storms, ocean wave field), and other factors. Finally, we discuss the effect of Southern Annular Mode on Antarctic sea ice and microseisms, as well as the current limitations and potential of employing seismological investigations to elucidate Antarctic sea ice variations and climate change. 相似文献