核查台阵、美国台阵与科学探测台阵现状综述

台阵具有不同的设计理念,因而在各自科学研究和地震探测领域发挥着不同的作用。本文介绍了当前正在运行的核查台阵(Seismic array)、美国台阵(USArray)以及中国地震科学探测台阵(China array)的情况,在此详细解释核查小孔径地震台阵与美国探测台阵、中国地震科学探测台阵的区别。     

地下地震动频谱特点研究

本以美国加州强震观测计划(CSMIP）的6个岩土工程台阵的429条地表和地下地震动程为数据基础,按照各台阵场地土层分布情况将台阵分为七层和“上层／基岩”两类。对于同一类场地,将其中的各次地震,按照震级的大小将其分为三类;对于同一类地震,首先计算各地震的水下分量5％阻尼的反应谱以及相应的标准反应谱,并得到各深度测点相对于最深处测点的反应谱比值,分析比较两类场地下各深度反应谱的特点,另外,傅里叶谱也是本分析的一部分,通过对不同深度地下地震动的反应谱和傅氏谱的比较,得到了一些较有意义的结论,以供工程参考。     

台阵地震计程控化正弦标定系统设计

为满足台阵地震计标定要求,通过对程控化标定测控仪和标定测控软件的研究,采用一种适用于台阵地震计的程控化正弦标定方法,对中国地震局地球物理勘探中心负责管理的台阵地震计进行标定。台阵地震计标定实验结果显示,采用程控化正弦标定方法,在缩短标定时长、提高标定效率方面具有显著效果。     

兰州地震台阵监测能力研究

利用兰州地震台阵与兰州地震台数字化近两年的资料,对地震震相特征和震级进行对比分析,结果发现：地震记录震相特征基本相同,台阵有压低干扰背景和突出地震波信号的功能,说明台阵对记录较微弱地震有优势;在震中距小于1 000 km的范围内,兰州台阵的监测能力较明显高于兰州台,而震中距大于1 000 km时,兰州地震台阵与兰州地震台的监测能力相当.     

上海地震台阵标定及结果分析

阐述了台阵的地震定位原理和建立台阵标定数据库的必要性。说明了如何利用上海地震台网资料和上海地震台阵建成后的资料建立台阵标定数据库，最后，对上海台阵标定的结果进行了导致定位误差的横向速度变化的位置和范围的讨论。     

一幢钢筋混凝土建筑结构的强地震反应观测

介绍了美国加州强震观测计划（CSMIP）中一幢建筑结构地震反应台阵的观测方案，描述了被观测结构的有关情况，给出了该台阵于1994年美国北岭地震中获得的结构地震反应的观测资料。     

上海市环球金融中心结构地震反应台阵

"十五"期间,中国地震局在上海市环球金融中心建立我国第一个超高层结构地震反应专用台阵,随后上海市地震局对其进行升级改造。本文详细介绍环球金融中心超高层建筑结构地震反应台阵的测点布设,改造后台阵观测系统技术组成、远程通信方式、台网中心数据处理系统以及获得的强震记录。本台阵建设可以为高层建筑的抗震抗风研究提供数据支撑,为今后结构台阵建设积累宝贵经验。     

西昌MS5.1地震官地大坝实测动力响应特征分析

2018年10月31日16时29分四川西昌发生M_S5.1地震,震中距官地大坝26 km,官地大坝强震监测台阵完整地记录到了本次地震过程。基于官地大坝强震监测台阵记录到的西昌地震强震动数据,通过分析各测点的时程特征、频谱反应规律,研究官地大坝在西昌地震作用下的反应特征和规律。研究表明大坝各部位PGA范围在3.70～69.98 gal,仪器烈度值在1.8～5.2度之间,受西昌地震破裂方向影响,强震动三分向峰值及频谱特性随着高程的增加呈明显的方向性放大效应,总体表现为顺河向分量大于横河向和垂直向分量;此次地震反应周期小于大坝基岩场地特征周期,且西昌地震激励下大坝场地卓越周期与大坝自振周期相差较大,本次地震对大坝安全无影响。     

海拉尔地震台阵噪声源调查

利用海拉尔地震台阵位置资料,选取台阵半径50 km范围,通过实地摸排和GPS仪定位方法,判断台阵周围有无国际标注的各大噪声源,同时计算噪声源与台阵的距离,分析台阵所属9个子台环境噪声水平,并将现今噪声功率谱与2000年时进行对比,汇总结果,并对台阵环境噪声水平进行评价。结果表明,海拉尔地震台阵周围有6类噪声源,其中工业设施和公共交通对台阵噪声水平的影响集中在高频段,但对监测能力影响不大;根据地震计安放位置与干扰源的最小距离进行评价,得出7个子台噪声源水平达到Ⅰ级台站环境地噪声水平,B₄、B₅子台处于Ⅱ级台站环境地噪声水平,台阵噪声水平总体处于良好状态,不影响仪器的正常运行。     

上海地震台阵电缆的铺设

前言一般来说 ,台阵各子台地震计所检测的地震信号是通过有线或无线的方式传输汇集到位于台阵附近的数据中心。如德国格兰芬堡台阵分为 3个子台阵 ,采用有线的方式先将各子台阵每一子台的地震信号传输到子台阵中心 ,然后再将汇集到各子台阵的地震信号再分别传输到埃尔兰根的台阵中心。又如加拿大黄刀台阵的初期 ,各子台的地震信号输出采用悬挂在木制三角架上的电缆传输到附近的控制中心。 1 986年加拿大政府对黄刀台阵进行了重大更新 ,除了在台阵安装不同频带的地震计外 ,还采用高分辨的数字化输出 ,并将地震数据通过 UHF数字无线遥测传输…     

Seismic isolation of cable‐stayed bridges for near‐field ground motions

This study examines the efficacy of using seismic isolation to favorably influence the seismic response of cable‐stayed bridges subjected to near‐field earthquake ground motions. In near‐field earthquake ground motions, large amplitude spectral accelerations can occur at long periods where many cable‐stayed bridges have significant structural response modes. This combination of factors can result in large tower accelerations and base shears. In this study, lead–rubber bearing seismic isolators were modeled for three cable‐stayed bridges, and three cases of isolation were examined for each bridge. The nine isolated bridge configurations, plus three non‐isolated configurations as references, were subjected to near‐field earthquake ground motions using three‐dimensional time‐history analyses. Introduction of a small amount of isolation is shown to be very beneficial in reducing seismic accelerations and forces while at the same time producing only a modest increase in the structural displacements. There is a low marginal benefit to continue to increase the amount of isolation by further lengthening the period of the structure because structural forces and accelerations reduce at a diminishing rate whereas structural displacements increase substantially. In virtually all cases the base shears in the isolated bridges were reduced by at least 50several instances by up to 80individual near‐field records showed large variability from one record to the next, with coefficients of variation about the mean as large as 50assessing the characteristics of near‐field ground motion for use in isolation design of cable‐stayed bridges. Copyright © 2003 John Wiley & Sons, Ltd.     

Design of hysteretic dampers with optimal ductility for the transverse seismic control of cable‐stayed bridges

Cable‐stayed bridges require a careful consideration of the lateral force exerted by the deck on the towers under strong earthquakes. This work explores the seismic response of cable‐stayed bridges with yielding metallic dampers composed of triangular plates that connect the deck with the supports in the transverse direction. A design method based on an equivalent single‐degree of freedom approximation is proposed. This is proved valid for conventional cable‐stayed bridges with 200‐ and 400‐m main spans, but not 600 m. The height of the plates is chosen to (1) achieve a yielding capacity that limits the maximum force transmitted from the deck to the towers, and to (2) control the hysteretic energy that the dampers dissipate by defining their design ductility. In order to select the optimal ductility and the damper configuration, a multi‐objective response factor that accounts for the energy dissipation, peak damper displacement and low‐cycle fatigue is introduced. The design method is applied to cable‐stayed bridges with different spans and deck–support connections. The results show that the dissipation by plastic deformation in the dampers prevents significant damage in the towers of the short‐to‐medium‐span bridges under the extreme seismic actions. However, the transverse response of the towers in the bridge with a 600‐m main span is less sensitive to the dampers. Copyright © 2017 John Wiley & Sons, Ltd.     

单索面混凝土矮塔斜拉桥的动力特性

以厦门银湖矮塔斜拉桥为例,通过引入拉索自振频率影响度的概念,分析了拉索的存在对矮塔斜拉桥自振特性的影响,探讨了矮塔斜拉桥的自振特性与相应连续梁桥(或刚构桥)的区别;在分析矮塔斜拉桥地震反应的基础上,通过引入振型贡献率的概念,分析了高阶振型对矮塔斜拉桥动力性能的影响;分析了矮塔斜拉桥的振型耦联效应。最后首次较全面地总结了单索面混凝土矮塔斜拉桥的动力特性,对进一步认识矮塔斜拉桥的动力性能有一定的参考意义。     

Hybrid seismic protection of cable‐stayed bridges

This paper proposes a hybrid control strategy combining passive and semi‐active control systems for seismic protection of cable‐stayed bridges. The efficacy of this control strategy is verified by examining the ASCE first‐generation benchmark problem for a seismically excited cable‐stayed bridge, which employs a three‐dimensional linearized evaluation bridge model as a testbed structure. Herein, conventional lead–rubber bearings are introduced as base isolation devices, and semi‐active dampers (e.g., variable orifice damper, controllable fluid damper, etc.) are considered as supplemental damping devices. For the semi‐active dampers, a clipped‐optimal control algorithm, shown to perform well in previous studies involving controllable dampers, is considered. Because the semi‐active damper is a controllable energy‐dissipation device that cannot add mechanical energy to the structural system, the proposed hybrid control strategy is fail‐safe in that the bounded‐input, bounded‐output stability of the controlled structure is guaranteed. Numerical simulation results show that the performance of the proposed hybrid control strategy is quite effective in protecting seismically excited cable‐stayed bridges. Copyright © 2004 John Wiley & Sons, Ltd.     

Seismic response of a cable‐stayed bridge deck under multi‐component non‐stationary random ground motion

A Markov method of analysis is presented for obtaining the seismic response of cable‐stayed bridges to non‐stationary random ground motion. A uniformly modulated non‐stationary model of the random ground motion is assumed which is specified by the evolutionary r.m.s. ground acceleration. Both vertical and horizontal components of the motion are considered to act simultaneously at the bridge supports. The analysis duly takes into account the angle of incidence of the earthquake, the spatial correlation of ground motion and the quasi‐static excitation. A cable‐stayed bridge is analysed under a set of parametric variations in order to study the non‐stationary response of the bridge. The results of the numerical study indicate that (i) frequency domain spectral analysis with peak r.m.s. acceleration as input could provide more r.m.s. response than the peak r.m.s. response obtained by the non‐stationary analysis; (ii) the longitudinal component of the ground motion significantly influences the vertical vibration of the bridge; and (iii) the angle of incidence of the earthquake has considerable influence on the deck response. Copyright © 2003 John Wiley & Sons, Ltd.     

斜拉桥结构减震设计优化研究

位于中强以上地震烈度区的大跨斜拉桥结构,如果采用传统的抗震设计方法,通常很难满足结构的抗震设计要求,因此采取一定的减震措施显得非常必要。本文以某一总长为2 088m的大跨双塔双索面斜拉桥为分析算例,对斜拉桥结构的减震设计进行了研究。合理的减震结构体系是取得良好减震效果的前提,通过分析对比,该大跨斜拉桥横向采用局部减震体系最为合理,即只在近塔辅助墩处设置横向粘滞阻尼器,其它塔、墩处采用常规的横向约束方案。为使减震结构得到更好的减震效果,还应对减震装置参数进行优化设计。由于采取了合理的减震结构体系、较优的减震装置参数,使该大跨斜拉桥取得了很好的减震设计效果。     

System identification applied to long‐span cable‐supported bridges using seismic records

This paper presents the application of system identification (SI) to long‐span cable‐supported bridges using seismic records. The SI method is based on the System Realization using Information Matrix (SRIM) that utilizes correlations between base motions and bridge accelerations to identify coefficient matrices of a state‐space model. Numerical simulations using a benchmark cable‐stayed bridge demonstrate the advantages of this method in dealing with multiple‐input multiple‐output (MIMO) data from relatively short seismic records. Important issues related to the effects of sensor arrangement, measurement noise, input inclusion, and the types of input with respect to identification results are also investigated. The method is applied to identify modal parameters of the Yokohama Bay Bridge, Rainbow Bridge, and Tsurumi Fairway Bridge using the records from the 2004 Chuetsu‐Niigata earthquake. Comparison of modal parameters with the results of ambient vibration tests, forced vibration tests, and analytical models are presented together with discussions regarding the effects of earthquake excitation amplitude on global and local structural modes. Copyright © 2007 John Wiley & Sons, Ltd.     

高烈度区深水斜拉桥动水效应及抗震体系研究

位于高烈度区的深水斜拉桥在地震下不仅会受到强震的作用,还会受到附近水体的作用,结构抗震要求高,选择合理的抗震体系非常重要.以云南格巧高速双河特大桥为工程实例,分析动水作用对斜拉桥地震响应的影响及其与地震强度的关系,在此基础上对斜拉桥的纵、横向抗震体系展开研究并给出合理建议.结果表明,动水作用会增大索塔塔底内力和结构整体位移响应,且对剪力的影响最大;动水对结构各响应的放大作用随地震强度增加呈现出增减不一的变化趋势,抗震设计时应分别考虑各级地震下的动水效应;索塔、辅助墩和桥台处均设置黏滞阻尼器等阻尼约束的纵向协同抗震体系能够最有效减小墩、塔底纵向内力及结构纵向位移,建议作为斜拉桥纵向抗震体系; 斜拉桥横向推荐采用索塔处设置固定约束、墩台处设置钢阻尼器等弹塑性约束的组合约束体系,该体系能同时降低墩、塔底横向内力,并有效控制结构整体横向位移响应.     

汶川大地震简支梁桥落梁震害与设计对策

总结了5.12汶川大地震中简支梁桥落梁震害及主要影响因素,发现除地震山体滑坡等地质灾害外,断层地表破裂、近断层地震动效应、桥台胸墙冲切破坏、防落梁构造措施单一及桥梁体型复杂等因素都是引起简支梁桥落梁震害的重要原因。提出了简支梁桥防落梁设计的基本理念及相关技术方案要点为允许墩梁间发生滑移,以降低桥墩承受的地震惯性力,以及盖梁提供允许的最大滑移长度及支座支承宽度,再辅助挡块或拉索限位器等共同防止落梁发生。最后结合现行规范,以拉索限位器为例给出了简支梁桥防落梁设计方法。