带隔震装置的浅埋地下结构抗震性能数值研究

Jianning Wang , Guangyu Zhang , Haiyang Zhuang , Jing Yang , Chen Li
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引用次数: 3

摘要

基于框架式地下结构的地震破坏模式和临界支撑柱的设计理念,提出了通过在柱顶端安装隔震装置来提高不等跨地下结构抗震性能的设计方法。为研究弹性滑动支座(ESB)和铅橡胶支座(LRB)对复杂地铁车站结构的抗震效果,建立了不等跨土-地下结构相互作用的二维有限元模型。研究发现,在柱的顶端安装隔震装置后,地下结构的刚度和内力分布发生了显著变化。梁柱节点约束明显减弱,导致整体侧移刚度降低,结构侧移增大。隔震装置的引入有效降低了框架柱的内力和地震损伤;与非隔震结构相比,隔震结构的顶板、底板、侧壁等受拉损伤显著增加。虽然在强地震作用下ESB的相对滑移保持在可控范围内,并且框架柱具有稳定的竖向支撑和自恢复功能,但LRB在地震破坏时表现出更好的性能,并且在非等跨地下结构中表现出更好的侧向位移响应。分析结果为促进隔震技术在地下结构中的应用提供了新的思路和参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Numerical investigation on seismic performance of a shallow buried underground structure with isolation devices

A design procedure for improving the seismic performance of unequal-span underground structures by installing isolation devices at the top end of columns is proposed based on the seismic failure mode of frame-type underground structures and the design concept of critical support columns. A two-dimensional finite element model (FEM) for a soil-underground structure with an unequal-span interaction system was established to shed light on the effects of a complex subway station with elastic sliding bearings (ESB) and lead rubber bearings (LRB) on seismic mitigation. It was found that the stiffness and internal force distribution of the underground structure changed remarkably with the installation of isolation devices at the top end of the columns. The constraints of the beam-column joints were significantly weakened, resulting in a decrease in the overall lateral stiffness and an increase in the structural lateral displacement. The introduction of the isolation device effectively reduces the internal force and seismic damage of the frame column; however, the tensile damage to the isolation structure, such as the roof, bottom plate, and sidewall, significantly increased compared to those of the non-isolation structure. Although the relative slip of the ESB remains within a controllable range under strong earthquake excitation as well as frame columns with stable vertical support and self-restoration functions, the LRB shows a better performance during seismic failure and better lateral displacement response of the unequal-span underground structure. The analysis results provide new ideas and references for promoting the application of seismic isolation technology in underground structures.

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