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Design of bridges against large tectonic deformation 被引量:5
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作者 I.Anastasopoulos g.gazetas +2 位作者 V.Drosos T.Georgarakos R.Kourkoulis 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2008年第4期345-368,共24页
The engineering community has devoted much effort to understanding the response of soil-structure systems to seismic ground motions, but little attention to the effects of an outcropping fault offset. The 1999 earthqu... The engineering community has devoted much effort to understanding the response of soil-structure systems to seismic ground motions, but little attention to the effects of an outcropping fault offset. The 1999 earthquakes of Turkey and Taiwan, offering a variety of case histories of structural damage due to faulting, have (re)fueled the interest on the subject. This paper presents a methodology for design of bridges against tectonic deformation. The problem is decoupled in two analysis steps: the first (at the local level) deals with the response of a single pier and its foundation to fault rupture propagating through the soil, and the superstructure is modeled in a simplified manner; and the second (at the global level) investigates detailed models of the superstructure subjected to the support (differential) displacements of Step 1. A parametric study investigates typical models of viaduct and overpass bridges, founded on piles or caissons. Fixed-head piled foundations are shown to be rather vulnerable to faulting-dnduced deformation. End-bearing piles in particular are unable to survive bedrock offsets exceeding 10 cm. Floating piles perform better, and if combined with hinged pile-to-cap connections, they could survive much larger offsets. Soil resilience is beneficial in reducing pile distress. Caisson foundations are almost invariably successful. Statically-indeterminate superstructures are quite vulnerable, while statically-determinate are insensitive (allowing differential displacements and rotations without suffering any distress). For large-span cantilever-construction bridges, where a statically determinate system is hardly an option, inserting resilient seismic isolation bearings is advantageous as long as ample seating can prevent the deck from falling off the supports. An actual application of the developed method is presented for a major bridge, demonstrating the feasibility of design against tectonic deformation. 展开更多
关键词 fault rupture EARTHQUAKE soil-structure interaction BRIDGE VIADUCT pile group caisson foundation finite elements
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堆石坝抗震分析综述
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作者 g.gazetas P.Dakoulas +1 位作者 胡晓 杜修力 《世界地震工程》 CSCD 1994年第1期52-60,共9页
一、前言 本文评述堆石坝抗强震设计的理论分析方法及其有关问题,可以作为1985年第二届土动力学和地震工程国际会议上所提评论文章及在相应杂志上发表的论文的续篇。在那篇文章里通过全面综述大量已发表的坝的反应分析方法后,着重讨论... 一、前言 本文评述堆石坝抗强震设计的理论分析方法及其有关问题,可以作为1985年第二届土动力学和地震工程国际会议上所提评论文章及在相应杂志上发表的论文的续篇。在那篇文章里通过全面综述大量已发表的坝的反应分析方法后,着重讨论了以下几方面的影响:(1)与围压有关的材料刚度的非均匀性;(2)三维河谷的几何形状;(3)材料的非线性与非弹性特性。本文在斜入射平面SH波在坝与河谷界面上引起的不均匀激振影响的少量三维解方面有新的进展。此外,本文还通过总结,给出了均匀激振(刚性坝基)下有关非弹性反应和三维河谷影响的背景材料。 展开更多
关键词 堆石坝 抗震 坝基
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不同构形群桩的动力反应
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作者 g.gazetas K.Fan +1 位作者 A.Kaynia 徐晶 《世界地震工程》 CSCD 1994年第4期55-60,共6页
一、前言 土—桩—基础—结构系统的地震相互作用分析可以按下列三步依次进行: (1)求不计上部结构惯性的基础运动。这一所谓的基础输入运动包括平移分量和旋转分量; (2)确定桩帽平移、旋转和平移旋转耦合振动的动力阻抗函数(弹簧、阻尼... 一、前言 土—桩—基础—结构系统的地震相互作用分析可以按下列三步依次进行: (1)求不计上部结构惯性的基础运动。这一所谓的基础输入运动包括平移分量和旋转分量; (2)确定桩帽平移、旋转和平移旋转耦合振动的动力阻抗函数(弹簧、阻尼器); (3)计算支承在上述弹簧、阻尼器上的上部结构的地震反应,其基底输入为由第一步所获得的基础运动。 对于上述分析的每一步骤,都已提出了多种可供选择的计算方法。 展开更多
关键词 桩基础 群桩 动力反应
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1993年皮尔戈斯(希腊)地震的震源机制和土层效应
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作者 G.Bouckovalas g.gazetas +1 位作者 G.Stavrakakis 万迪堃 《世界地震译丛》 北大核心 1996年第6期40-43,共4页
引言 1993年3月26日,一次中等强度的M_S=5.5的地震发生在希腊南部伯罗奔尼撒半岛的皮尔戈斯市以南3 km处,震源深度15 km。包括前震和余震在内的地震活动性的特征,就其延续时间超过一个月和其活动范围遍及该市周围15
关键词 地震 震源机制 土层效应 皮尔戈斯地震 震害
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