Multi-dimensional Seismic Response Analysis of Base-Isolated Frame Structure with 3D Isolator

INTRODUCTIONAs a new and effective method for withstandingthe horizontal component of earthquake motion on abuilding structure, the base isolation technique hascome to the engineering application phase ( Hu,1988). However, for some important buildings andfoundation facilities in an earthquake region, it is im portant to consider the effects of 3D aseismatic analy sis, including the vertical component, due to themulti dimensional characteristics of earthquakes (Suand …     

模型试验柔性均布压力加载系统研制及其应用

地质力学模型试验均布压力精确加载是保证试验精度的前提。为此研制了一种新型柔性均布压力加载系统,该系统主要包括液压自动控制系统和柔性均布压力加载装置。液压自动控制系统操作方便,可实现计算机自动控制12路压力精确伺服加、卸载和长期稳压。柔性均布压力加载装置由液压油缸、球铰、刚性推力器和柔性传力橡胶垫块等组成,采用数值方法确定柔性橡胶的厚度为50 mm。该系统应用到表面不平的模型加载中并与刚性加载进行了对比。试验结果表明,柔性均布压力加载系统相对于刚性加载效果显著,模型内应力场均匀程度取决于橡胶传力垫块的邵氏硬度、加载应力大小和距表面深度。邵氏硬度小的橡胶柔性加载模型内应力场更均匀;且模型应力场随加载应力增大趋于均匀。模型内应力场距加载表面越远越均匀,柔性加载使距加载表面130 mm以下应力场基本保持均匀状态。试验表明,柔性均布压力加载系统有利于提高模型试验加载精度,具有广泛的应用前景。     

基于FEA的填充墙与隔震器协同抗震系统性能分析

隔震器与填充墙对建筑抗震性能有很大作用。为了探究填充墙布置形式及填充材料和隔震器协同作用对钢筋混凝土框架结构动力特性及抗震性能的影响,采用等效斜撑理论,对3种不同填充墙布置形式与隔震器协同作用的抗震系统方案进行对比分析,研究发现顶层不布置填充墙与隔震器协同抗震系统钢筋混凝土框架结构的抗震性能最佳。在此系统上分析了不同填充材料对钢筋混凝土框架结构抗震性能的影响,结果表明,加气混凝土砌块填充墙的钢筋混凝土框架结构抗震性能最好。     

铅橡胶复合阻尼器的性能试验研究

介绍作者提出的铅橡胶复合阻尼器的构造与耗能原理，通过不同形状，不同大小铅心的8个铅橡胶复合阻尼器的循环荷载试验，研究了频率、应变幅值、循环次数、铅芯直径、竖向压力等对铅橡胶复合阻尼器的影响规律。研究结果表明，铅橡胶复合阻尼器工作性能稳定，耗能性能和抗疲劳性能好。     

金刚石钻头制造的新型模具材料及模具成型工艺

针对无压浸渍法制造金刚石钻头存在模具费用高、模具加工周期长等缺点,研究了一种新型模具材料（陶瓷粉）取代石墨材料,并研究了一种全新的模具成型方法,简化了模具制造工序,降低了成本。     

Reduction of pounding effects in elevated bridges during earthquakes

Pounding of adjacent superstructure segments in elevated bridges during severe earthquakes can result in significant structural damage. The aim of this paper is to analyse several methods of reduction of the negative effects of collisions induced by the seismic wave propagation effect. The analysis is conducted on a detailed three‐dimensional structural component model of an isolated highway bridge. The results show that the influence of pounding on the structural response is significant in the longitudinal direction of the bridge and significantly depends on the gap size between superstructure segments. The smallest response can be obtained for very small gap sizes and for gap sizes large enough to prevent pounding. Further analysis indicates that the bridge behaviour can be effectively improved by placing hard rubber bumpers between segments and by stiff linking the segments one with another. The experimental results show that, for the practical application of such connectors, shock transmission units can be used. Copyright © 2000 John Wiley & Sons, Ltd.     

遇水膨胀隔离器在水文地质孔止水中应用

为克服海带、胶皮等止水膨胀材料,在下入孔内时容易被井壁磨挂、移位,致使止水效果欠佳的缺点,采用了将遇水膨胀橡胶做成隔离止水器的方法。该隔离器由套管短节、膨胀材料和防护挡圈三部分组成。套管短节为隔离器主体管,膨胀材料为遇水膨胀橡胶,用于封闭套管底部与孔壁间隙;防护挡圈是防止下管时,膨胀材料被磨损和限位。应用表明,该隔离器不仅克服了传统膨胀材料容易被磨挂的缺点,而且简化了钻孔结构,提高了钻进效率,止水效果好,为今后在条件复杂地层中施工水文地质孔的止水工作提供了借鉴。     

环境温度对板式橡胶支座摩擦滑移性能的影响分析

采用有限元模拟的方式,对板式橡胶支座摩擦滑移特性进行分析,并与常温试验中获得的支座摩擦滑移滞回曲线、等效黏滞阻尼比等进行了对比.在获得可靠模型的基础上,分析环境温度对板式橡胶支座摩擦滑移特性的影响,研究了温度与支座摩擦滑移耗能、等效黏滞阻尼比和滑动起始距离的关系.结果表明:(1)板式橡胶支座的有限元模型可以较好地实现支...     

中国热带东,西部地区冬季气候的差异与橡胶树的引种

由于青藏高原的动力影响，使得西部地区冬季出现下沉气流，多日照，利于橡胶树的越冬，而东部则出现上升气流，少日照，不利越冬，又由于青藏高原大山体，冬季明显地阻挡低层空气平流，导致高原南侧的西部地区冬季降温和缓，有利橡胶树越冬，而东部地区因无高大山体阻挡，寒潮初期降温剧烈，后期低温阴雨天气持续甚久，易导致橡胶树的严重寒害。