考虑SSI及地形效应的整体渡槽隔震性能分析

Seismic isolation analysis of integrated aqueduct considering soil-structure interaction and topographic effect

韩钟骐 ¹敖选年 ²蒋继彬 ²王海深 ¹潘鹏³

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作者信息

1. 清华大学土木工程系,北京 100084
2. 云南省滇中引水工程有限公司,昆明 650000
3. 清华大学土木工程系,北京 100084;清华大学土木工程安全与耐久教育部重点实验室,北京 100084
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摘要

该文以滇中引水工程松林渡槽为例,分析了桩-土相互作用(soil-structure interaction,SSI)及地形效应(主要为V形河谷效应)对隔震渡槽结构地震响应的影响.采用大型通用有限元软件ABAQUS建模,通过m法及等效刚度桩考虑SSI,采用简化弹簧-质量模型考虑流固耦合作用.结果表明:考虑SSI后,槽墩变形、槽段间相对位移及支座变形有所增大,其中支座变形接近设计限值,有破坏风险.考虑在V形河谷效应下水平偏振横波相对于水平面不同入射角的工况中,渡槽结构响应的大小依次为:水平入射、45°斜入射、一致输入、垂直入射,其中45°斜入射与一致输入相近;段间相对位移及支座顺槽向显著变形,为设计关注重点.

Abstract

[Objective]An aqueduct is a simply supported bridge-like structure whose main purpose is to transport water over long-distance and difficult terrains.When an aqueduct is constructed in seismically active regions,base-isolation is often needed.However,current research on aqueducts that considers both the pier-soil interaction and topographic effects is lacking.This paper theoretically analysis the influences of pier-soil interaction and topographic effects(mainly V-shaped canyon effect)on the base-isolated Songlin aqueduct of Central Yunnan Water Division Project during an earthquake event.[Methods]The analysis is achieved through modelling using the universal large-scale finite element analysis(FEA)software ABAQUS.The soil-structure interaction(SSI)is simulated through m-method and the equal-stiffness pier method according to relevant standard and research,respectively.The m-method simplifies the SSI as a series of springs.The stiffness of each spring is related to the pier geometries and soil thickness considered.The fluid-structure interaction is simulated through simplified spring-mass model,which is a commonly used analytical model to simulate fluid-structure interaction.In this paper,the spring-mass model is modified for computational efficiency.The results of the modified and traditional spring-mass model are compared to verify the effectiveness of the modified model.The FEA model mainly consists of beam elements and the popular user-defined material database PQ-fiber is adopted in the analysis.Post-tensioning of the aqueduct is achieved through temperature-gradient and material expansion coefficient in ABAQUS.Three-dimensional earthquake actions selected from PEER database are inputted at the pier base of the model as accelerations to simulate the dynamic structural responses of the aqueduct.The V-shaped canyon effect is considered by transforming the time-history and peak ground acceleration(PGA)of the earthquake records.[Results]The structure periods of aqueduct were 2.81,1.72 and 1.40 s for the first three deformation modes,respectively.The structure periods changed to 2.82,1.75 and 1.44 s after the introduction of SSI,respectively.The FEA results indicated that the pier deformation,inter-span relative displacement and isolation bearing deformation were amplified after SSI was introduced.Amongst the parameters,the deformation of the isolation bearings was observed to approach its design limits.This posed the threats of isolation bearing failure during a seismic event.The flexure strength demands at the base of the piers are relatively insensitive to the introduction of SSI.It was also found that the higher the pier,the effects of SSI on inter-span relative displacement,isolation bearing deformation and pier-base flexural strength demand became more pronounced.[Conclusions]the introduction of SSI decreased the stiffness of pier-ground connection which resulted in the slight decrease of the structural period of the aqueduct.Parametric analysis of the angles of incidence between the horizontal surface and the horizontally-polarized shear waves produced due to V-shaped canyon effect demonstrated that the overall response of the Songlin aqueduct is greatest with the horizontal incidence,followed by the oblique incidence,uniform incidence and vertical incidence.It is also found that the inter-span relative displacement and isolation bearing deformation along the aqueduct direction can exceed their respective design limits and should be carefully checked in the design process.

关键词

渡槽/桩-土相互作用/地形效应/有限元模拟/隔震

Key words

aqueduct/soil-structure interaction/topographic effect/finite element analysis/isolation

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基金项目

国家重点研发计划项目(2021YFB2600502)

云南省重大科技专项计划项目(202102AF080001)

出版年

2024

清华大学学报(自然科学版)

清华大学

清华大学学报(自然科学版)

CSTPCD北大核心

影响因子：0.586

ISSN：1000-0054

参考文献量19

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