共查询到20条相似文献,搜索用时 593 毫秒
1.
基于WFI动三轴试验仪的小型土箱震动台试验系统研制 总被引:1,自引:0,他引:1
为开展模型地基土动力特性的试验研究,开展了小型土箱振动台试验系统的研制.该系统由WFI动三轴试验仪的控制平台、气压供应系统、气压动力设备和伺服控制数据采集系统与自行设计制作的承台及支撑导向系统、小型土箱、信号调理变换器组装而成.经过性能检测,该系统台面具有较好的单向平稳振动性能,并能通过位移控制实现地震动输人,小型土箱... 相似文献
2.
3.
4.
《地震工程与工程振动》2015,(3)
基于多子台台阵系统,北京工业大学于近期开展了多点地震动输入、不同场地条件下埋地管道振动台试验。试验中连续体模型箱固定于3个振动台台面上,相邻台面上的箱体能在水平双方向(纵向、横向)相对运动;3个振动台相互独立,通过分别对3个振动台输入各自的加速度记录实现了多点地震动输入。本文针对其中的横向水平地震激励作用下的场地响应进行研究,分析了一致和非一致地震作用下有无埋地管线时的场地地震响应规律。试验结果表明,非一致激励作用将增大场地土体的相对位移,致使相邻地震动输入点间场地土体受到剪切作用;随着输入地震动强度的增加,场地土体的一阶固有频率持续降低,阻尼比不断增大;非自由场的阻尼比、一阶固有频率等参数略大于自由场。 相似文献
5.
不同再生骨料掺量的中高剪力墙振动台试验研究 总被引:2,自引:0,他引:2
为了研究再生混凝土剪力墙的动力性能,进行了3个1/3缩尺的不同再生骨料取代率的中高剪力墙模型的模拟地震振动台试验,其中1个为普通混凝土剪力墙、1个为再生粗骨料混凝土剪力墙、1个为全再生骨料混凝土剪力墙。试验过程经历了剪力墙弹性、开裂和破坏阶段,实测并比较分析了各剪力墙在不同阶段的动力特性、动力反应及破坏形态。试验结果表明:再生粗骨料混凝土中高剪力墙具有和普通混凝土剪力墙相近的抗震性能,其墙体开裂时台面加速度输入降低9.7%,其弹塑性位移角达到1/120时台面加速度输入降低5.8%,经合理设计,可用于建筑结构。 相似文献
6.
针对我国即将发射的电磁监测试验卫星观测物理量和观测频段, 结合我国现有地基观测基础和对比观测需求, 本文提出了地面对比观测系统设计方案, 包括观测对象、 观测频段和观测区域的选取以及台网布局方式. 在此基础上, 根据该方案在甘肃省天祝前兆台阵区域建立了古丰、 寺滩和坪城等3个台站的地面对比观测原型系统, 并取得了电磁场的初步观测资料. 对观测资料的分析结果表明, 地电场和地磁场观测数据呈典型的日变化形态, 具有较好的同步性和一致性, 能够真实地反映小区域地电场和地磁场的变化. 该结果可为今后开展试验性的星地联合观测和建立我国地震电离层立体监测体系提供技术支撑. 相似文献
7.
子结构地震模拟振动台混合试验原理与实现 总被引:2,自引:0,他引:2
为了解决地震模拟振动台承载能力及台面尺寸对大型结构试验的限制,扩展振动台的功能,本文提出了子结构地震模拟振动台混合试验方法、试验过程及实时数值积分方法,并给出了试验子结构边界条件的两种模拟形式.通过一个简单框架结构的地震模拟振动台试验和子结构混合加载试验验证了该方法的可行性,并指出了该试验方法的主要技术问题.混合试验方法通过子结构技术和振动台试验相结合,解决了目前的地震模拟振动台试验和拟动力试验在设备规模和加载速度上的局限性. 相似文献
8.
《世界地震工程》2015,(3)
为研究岩溶场地地表地震动参数变化规律,运用正交试验的基本理论和方法步骤,通过正交试验设计单一土洞在4种因素(土洞直径、覆盖土层厚度、土洞深度以及土体动弹性模量)变化下地表加速度时程的变化。选取了正交表分析设计32组数值试验的方案,建立400m×400m的场地有限元模型计算,并运用MATLAB软件对上述32组有限元试验计算结果进行二次回归分析,得到场地地表地震动与各主要影响因素的关系式。分析得到:土洞的直径d对场地的地表峰值加速度影响最大,其次是覆盖土层厚度H和土体动弹性模量E,影响较小的是土洞的深度h;且当仅有1个自变量时分别随着土洞直径d、覆盖层厚度H和土体的动弹性模量E变化时为开口向下的二次函数,随着土洞中心点的深度h变化时为开口向上的二次函数。 相似文献
9.
地震数据结构分析与油气预测方法 总被引:3,自引:0,他引:3
文中引入了地震资料数据结构的概念并解释了地震数据结构和地震数值之间的不同之处。我们的研究表明:地震数据结构与地层含油气性紧密相关,因此对地质和地球物理工作者精确地从地震资料解释含油层是非常有用的。此项技术可用于勘探开发的任何阶段。此方法已在中国一系列勘探井和开发井上试验,并已被证明是可靠的,试验成功率超过80%。此预测的新方法可应用于:(1)海相、三角州相或非海相的沉积环境;(2)非海相碎屑岩和灰岩岩层的沉积岩以及(3)埋深度从300m到2000m,油层最小厚度为8m(主频为约50周)。关键词: 相似文献
10.
为了分析软土地基-筏基础核电厂房结构地震反应规律和特征,利用地震模拟振动台开展了软土地基-筏基础-核电厂房动力相互作用问题的试验研究。分别进行了表面水平土体模型和表面凹陷土体模型的运动相互作用试验、地基土-筏基础-核电厂房振动台相互作用试验、核电厂房直接固定在振动台面上的刚性基底振动台试验。试验采用圆形叠层剪切模型箱,地基土模型为某工程场地的均匀粉质粘土,其剪切波速为213 m/s;核电厂房简化为3层框架剪力墙结构模型。试验输入波形为美国核电规范常用的RG1.60反应谱合成得到的人工地震动时程。振动台试验结果对比分析表明:土-结构体系中系统的振动周期和阻尼明显大于刚性基底下结构的振动周期和阻尼;相同地震作用下在土-结构动力相互作用体系中结构加速度明显小于刚性基底下的结构加速度反应;而位移明显大于刚性基底下结构的位移。本文的研究成果可为软土地基建立核岛厂房的适应研究提供参考。 相似文献
11.
This paper presents the shake‐table tests of a 2/3‐scale, three‐story, two‐bay, reinforced concrete frame infilled with unreinforced masonry walls. The specimen is representative of the construction practice in California in the 1920s. The reinforced concrete frame had nonductile reinforcement details and it was infilled with solid masonry walls in one bay and infill walls with window openings in the other bay. The structure was subjected to a sequence of dynamic tests including white‐noise base excitations and 14 scaled historical earthquake ground motion records of increasing intensity. The performance of the structure was satisfactory considering the seismic loads it was subjected to. The paper summarizes the design of the specimen and the major findings from the shake‐table tests, including the dynamic response, the load resistance, the evolution of damage, and the final failure mechanism. Copyright © 2011 John Wiley & Sons, Ltd. 相似文献
12.
The electromagnetic mass damper (EMD) control system, as an innovative active control system to reduce structural vibration, offers many advantages over traditional active mass driver/damper (AMD) control systems. In this paper, studies of several EMD control strategies and bench-scale shaking table tests of a two-story model structure are described. First, two structural models corresponding to uncontrolled and Zeroed cases are developed, and parameters of these models are validated through sinusoidal sweep tests to provide a basis for establishing an accurate mathematical model for further studies. Then, a simplified control strategy for the EMD system based on the pole assignment control algorithm is proposed. Moreover, ideal pole locations are derived and validated through a series of shaking table tests. Finally, three benchmark earthquake ground motions and sinusoidal sweep waves are imposed onto the structure to investigate the effectiveness and feasibility of using this type of innovative active control system for structural vibration control. In addition, the robustness of the EMD system is examined. The test results show that the EMD system is an effective and robust system for the control of structural vibrations. 相似文献
13.
Influence of the construction process and nonstructural components on the modal properties of a five‐story building 
下载免费PDF全文
下载免费PDF全文 Rodrigo Astroza Hamed Ebrahimian Joel P. Conte José I. Restrepo Tara C. Hutchinson 《地震工程与结构动力学》2016,45(7):1063-1084
A full‐scale five‐story reinforced concrete building was built and tested on the NEES‐UCSD shake table during the period from May 2011 to May 2012. The purpose of this test program was to study the response of the structure and nonstructural components and systems (NCSs) and their dynamic interaction during seismic base excitation of different intensities. The building specimen was tested first under a base‐isolated condition and then under a fixed‐based condition. As the building was being erected, an accelerometer array was deployed on the specimen to study the evolution of its modal parameters during the construction process and placement of major NCSs. A sequence of dynamic tests, including daily ambient vibration, shock (free vibration) and forced vibration tests (low‐amplitude white noise and seismic base excitations), were performed on the building at different stages of construction. Different state‐of‐the‐art system identification methods, including three output‐only and two input‐output methods, were used to estimate the modal properties of the building. The obtained results allow to investigate in detail the effects of the construction process and NCSs on the dynamic parameters of this building system and to compare the modal properties obtained from different methods, as well as the performance of these methods. Copyright © 2015 John Wiley & Sons, Ltd. 相似文献
14.
采用传统的成本控制方法,存在质量和成本无法同时优化、成本预测精确度低,成本控制效果不佳等问题,为此,提出基于BIM的建筑重建工程施工成本控制方法。采用灰色系统理论预测建筑施工成本具体面临的问题,以各期施工成本相关信息数据作为模型数据基础;结合BIM技术进行成本控制动态模型构建,在模型中引入可辨识矩阵设定成本各指标的相对重要度,进一步找寻施工成本各项指标间的关系,按其相互关系进行排序,得到子成本与总成本间的规则联系,并就规则制定控制策略,调整成本控制动态模型以实现施工成本的动态控制。实验结果表明,所提方法的成本预测精度始终在75%以上,成本控制结果与实际值的拟合度高达95%,相比当前方法具有更好的控制性能。 相似文献
15.
Critical non‐structural equipments, including life‐saving equipment in hospitals, circuit breakers, computers, high technology instrumentations, etc., are vulnerable to strong earthquakes, and the failure of these equipments may result in a heavy economic loss. In this connection, innovative control systems and strategies are needed for their seismic protections. This paper presents the performance evaluation of passive and semi‐active control in the equipment isolation system for earthquake protection. Through shaking table tests of a 3‐story steel frame with equipment on the first floor, a magnetorheological (MR)‐damper together with a sliding friction pendulum isolation system is placed between the equipment and floor to reduce the vibration of the equipment. Various control algorithms are used for this semi‐active control studies, including the decentralized sliding mode control (DSMC) and LQR control. The passive‐on and passive‐off control of MR damper is used as a reference for the discussion on the control effectiveness. Copyright © 2008 John Wiley & Sons, Ltd. 相似文献
16.
震后建筑群修复施工阶段工程造价动态控制比其他阶段更具有变动性,需要高精度和高灵活性的预控系统的运用才能保证工程造价不出现偏差。在此文中,设计震后建筑群修复施工阶段工程造价动态预控系统。相关人员可在用户登录模块进入系统界面,在系统的工程信息管理模块中,采用改进遗传算法构建震后建筑群修复工程造价模型,完成震后建筑群修复工程造价动态预控系统的设计。实验结果验证,本文所设计的基于改进遗传算法的造价动态预控系统能够有效实现震后建筑群修复施工阶段的工程造价动态预控,伴随造价样本数目的增多,误差率会逐渐降低,预控性能较好;且预控灵活性始终大于95%,使用局限性仅有0.04,实用性较高,能够为震后建筑修复施工部门的工程造价控制给予借鉴。 相似文献
17.
Shake table tests are performed on temporary internal partitions for office buildings. Four different specimens are tested. A steel frame is designed to exhibit relative displacements which typically occur at a given story of ordinary buildings. Four different partition walls are tested simultaneously for each specimen typology. This allows investigating the influence of an innovative device on the seismic performance of the tested components. The innovative device avoids the unhooking of the panels from the supporting studs. Several shake table tests are performed subjecting the specimens to interstory drift ratios up to 1.57%. Both the hysteretic curves and the natural frequency trend highlight that the partitions do not contribute to the lateral stiffness of the test setup. The damping ratio increases after the partition walls are installed within the test frame, causing a beneficial effect in the dynamic response. Minor damage state occurs for interstory drift ratio (IDR) in the range 0.41–0.65% in standard specimens, whereas moderate and major damage states are attained for IDR in the range 0.51–0.95%. Significant increase of collapse IDR is recorded with the introduction of the innovative device, up to IDR larger than 1.45%. It can be therefore concluded that a simple innovative device is defined, which significantly improves the seismic performance of the tested specimen. Copyright © 2017 John Wiley & Sons, Ltd. 相似文献
18.
Large‐scale, servo‐hydraulic shake tables are a central fixture of many earthquake engineering and structural dynamics laboratories. Wear and component failure from frequent use may lead to control problems resulting in reduced motion fidelity, necessitating repairs and replacement of major components. This paper presents a methodology to evaluate shake table performance pre‐ and post‐repair, including the definition of important performance metrics. The strategy suggested is presented in the context of the rebuilding of a 4.9 × 3.1 m, 350‐kN‐capacity uniaxial shake table. In this case, the rebuild consisted of characterization of wear to table components, replacement of worn bearing surfaces, and replacement of hydraulic accumulators. To assess the effectiveness of the repair actions, sinusoidal and triangular waves, white noise, and earthquake histories were run on the table before and after the rebuild. The repair actions were successful in reducing the position and velocity dependence of friction, improving the ability of control algorithms to accurately reproduce earthquake motions. The maximum and average response spectral misfits in the period range of 0.1–2 seconds were reduced from approximately 50% to 15%, and from 5% to less than 2.5%, respectively. 相似文献
19.
Xiang Wang Tara C. Hutchinson Rodrigo Astroza Joel P. Conte José I. Restrepo Matthew S. Hoehler Waldir Ribeiro 《地震工程与结构动力学》2017,46(3):391-407
This paper investigates the seismic performance of a functional traction elevator as part of a full‐scale five‐story building shake table test program. The test building was subjected to a suite of earthquake input motions of increasing intensity, first while the building was isolated at its base and subsequently while it was fixed to the shake table platen. In addition, low‐amplitude white noise base excitation tests were conducted while the elevator system was placed in three different configurations, namely, by varying the vertical location of its cabin and counterweight, to study the acceleration amplifications of the elevator components due to dynamic excitations. During the earthquake tests, detailed observation of the physical damage and operability of the elevator as well as its measured response are reported. Although the cabin and counterweight sustained large accelerations because of impact during these tests, the use of well‐restrained guide shoes demonstrated its effectiveness in preventing the cabin and counterweight from derailment during high‐intensity earthquake shaking. However, differential displacements induced by the building imposed undesirable distortion of the elevator components and their surrounding support structure, which caused damage and inoperability of the elevator doors. It is recommended that these aspects be explicitly considered in elevator seismic design. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献
20.
Collapse behavior of a brick masonry house using a shaking table and numerical simulation based on the extended distinct element method 总被引:1,自引:1,他引:0
T. Nakagawa T. Narafu H. Imai T. Hanazato Q. Ali C. Minowa 《Bulletin of Earthquake Engineering》2012,10(1):269-283
Damage caused by devastating earthquakes has occurred in many developing countries. In order to mitigate such damage by promoting
the study of adequate seismic design strategies, the authors conducted a dynamic collapse test on 3 m × 3 m × 3 m brick masonry
house constructed with Pakistani bricks, using a one-direction horizontal large-scale shaking table. In order to analyze and
simulate seismic performance of the masonry structures, the authors applied a new numerical simulating method based on the
Extended Distinct Element Method (EDEM) and conducted collapse simulations of the brick masonry house behavior during the
shaking table tests. In the numerical simulation model, bricks were assumed to be rigid bodies, and mortar was modeled using
a mortar spring that consists of a normal spring and a shear spring. The parameters of each mortar spring were defined based
on the results of material tests. Simulated results showed various collapsing processes, and the simulated aspects were found
to be similar to the results of the shaking table tests. 相似文献