哈工大地震工程课件工程地震部分第四章强地震动的观测和数据处理.ppt
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1、Engineering Seismology (2),Ground Motion Instrumentation and Data Processing,地震动的观测(observation of GM),可以提供定量的数据 可以测量地震破坏作用的全过程, 能够分别研究并测量导致建筑物破坏的各种因素 不但为地震烈度和工程抗震措施提供定量数据和理论依据,同时又检验从抗震研究实践中总结出来的认识、理论和办法是否符合实际,从而加深人们对于抗震客观规律的认识,成为不断推动地震工程研究发展的重要手段。,Observation of strong motion is more difficult than
2、 the observations in other fields of seismology due to the infrequency of large earthquakes and the difficulty of anticipating areas of strong shaking for instrumentation. Weak motions from an earthquake with magnitude greater than 6.0 can be recorded worldwide. Thus a seismologist who studies teles
3、eisms can record on the order of 100 earthquakes per year, for interpretations of earth structure or tectonics. Similarly, local networks are generally set to the most sensitive level possible to detect and locate the smallest earthquakes, which are much more abundant. A specialized instrument, the
4、strong motion accelerograph, was developed in the 1930s to record strong motion. A network of these specialized instruments must furthermore have the good fortune to be located close to the earthquake, and must be maintained, often for decades, in a state of readiness to record the rare strong shaki
5、ng. In the 1990s, the situation changed somewhat with improvements in digital recording technology.,如果没有强震观测及其所取得的科学资料,就谈不上现代地震工程学的发展。,地震工程之所以能成为一间定量的科学是和强震观测的成果分不开的。 根据测量得到的地震加速度记录,计算了大量的反应谱曲线,获得了“平均反应谱”或“标准反应谱”,使反应谱分析得以真正应用于工程设计。 地震动特征的统计分析和结构抗震理论的发展。例如,从震源参数、传播介质的性质演算地震动,随机合成地震动时程,从弹性反应谱到非弹性反应谱,烈
6、度定量标准及其观测仪器的建立,以及场地条件对地震动的影响,地震时地基与结构的相互作用等研究,都是在取得了强震观测记录的基础上发展起来的。,The founding father of the strong motion instrumentation program in the United States is John R. Freeman. After the Tokyo, Japan earthquake of 1923, and the Santa Barbara, California and Montreal, Quebec earthquakes of 1925, he sti
7、mulated important early interactions between U.S. and Japanese institutions on earthquake engineering and wrote the first significant book in the English language on earthquake engineering, Earthquake Damage and Earthquake Insurance (Freeman, 1932). He particularly recognized the urgent need for an
8、instrument to record the strong shaking during earthquakes, and the result of his lobbying efforts was that the Coast and Geodetic Survey was authorized to develop and install such instruments in 1932. Nine months after the first instruments were installed, the first significant strong motion record
9、s were obtained from the March 10, 1933 Long Beach, California earthquake.,强震仪的原理,绝对静止参考系,摆(pendulum)的原理,CDMG-SMIP instrument cabinet, nearest house slightly damaged.,强震仪主要由五个系统构成,拾振系统,直接测量地震动的装置,通常称为拾振器或摆。根据其所记录的物理量不同可进一步分为位移计(摆)、速度计 (摆)和加速度计 (摆)。通常一点要采用一个测量竖向运动的拾振器、二个测量相互垂直的水平向运动的拾振器。,记录系统,机械、光、电流
10、计、模拟磁带、数字磁带和固态存储; 触发-起动控制系统,节省存储空间等; 预存储系统,避免“丢头”、节省存储空间; 时标系统,以便各分量、相邻各点地震动的比较、分析,相对时标系统(晶振)或绝对时标系统(GPS时间信号); 电源系统,一旦强震发生造成正常供电系统的破坏和失灵,要保证整套仪器驱动运转、线路控制、以及时标和光源正常工作。,Timing systems were not used in many of the early analog accelerographs, but they became more important as the analysis became more s
11、ophisticated. High-precision time, usually from satellite systems, is now essential with the digital accelerographs that provide records of aftershocks and other small events in large numbers. Precision time together with pre-event memory allow digital accelerographs to improve earthquake locations
12、beyond what is possible using only the traditional high-gain seismic networks.,强震观测仪通常记录的物理量,(1)通过对加速度记录积分求速度和位移,实际是计算加速度曲线(第二次积分是速度曲线),比起从位移曲线微分两次获得加速度的精度高; (2)因为记录强震,而强震又比较罕见,所以要求强震仪具有一定的坚固性和较好的稳定性,而加速度仪更容易实现; (3)加速度直接与力相关,比较其它物理量更受工程部门欢迎。,Instrumentation,台网的合理布局:应设置强度高、频度大的地震区;根据历史和现今的地震活动性和地质构造情
13、况 台阵的设计 仪器的正确设置:确保仪器的可靠性和精度要求 台网维护管理技术措施,确保仪器参数精度、仪器正常运行等。,Golden State Bank building on Ventura Blvd. in Sherman Oaks. This is a 13-story reinforced-concrete structure instrumented by the California Strong Motion Instrumentation Program. Its response was recorded in the 1971 San Fernando earthquake
14、 as well as the 1994 Northridge earthquake. In the north-south direction, the lateral-force-resisting system consists of shear walls at either end of the building, while in the east-west direction, a moment frame resists lateral force. Cracking can be observed in the western-most shear wall.,Array l
15、ayout,台阵设计,根据具体的观测内容,给出能提供完整资料的仪器布设方案,包括确定台阵的类型和规模,给出仪器的最优布设方案,台阵的设置方法,提出对仪器性能、仪器安设和维护管理技术的具体要求等。 地震动观测台阵,震源机制台阵、传播效应(衰减)台阵、局部场地效应台阵以及特殊地震动台阵等。 结构反应台阵,房屋结构(工业与民用)地震反应台阵、地基-结构系统地震反应台阵、桥梁、水坝、高炉、水塔、烟囱、核反应堆等结构地震反应台阵等,了解各类典型结构在强烈地震作用下的反应特征和破坏规律,确定结构在地震作用下的反应和导致破坏的数学物理模式。,许多国家和地区强震观测台网规模迅速扩大,(1)美国全国 5000台
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