考虑桩-土-结构-粒状固体相互作用的钢筋混凝土筒仓动态响应

Jinping Yang, Kaixin Sun, Meng Gao, Peizhen Li
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摘要

摘要 基于有限元程序 ANSYS,建立了考虑土-结构动力相互作用(SSI)的不同填充条件的柱支撑钢筋混凝土筒仓模型,深入研究了土-桩-筒仓结构与颗粒固体的复杂相互作用机理。分析比较了空填充状态、半填充状态和全填充状态下 SSI 系统和固定基底状态的动力特性和地震响应。数值结果表明,SSI效应可有效降低柱式支撑筒仓的地震加速度响应。然而,就位移而言,SSI效应往往会放大支撑柱和圆柱形筒仓的相对变形。此外,在半填充筒仓条件下,SSI 效应通常会增加储料的相对动态侧压力。在全填充筒仓条件下,SSI效应会增加储料顶部和底部的相对动侧压力,而降低颗粒固体中间部分的相对动侧压力,这表明 SSI效应会改变和增加筒仓结构在某些区域的地震响应。因此,该研究可全面了解不同填充条件下桩-土-筒仓结构的相互作用机理。
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Dynamic responses of reinforced concrete silo considering pile–soil‐structure–granular solid interaction
SummaryThe columned‐supported reinforced concrete silo models with different filling conditions considering soil‐structure dynamic interaction (SSI) are established based on the finite element program ANSYS to thoroughly investigate the complex interaction mechanism of the soil–pile–silo structure with granular solid. The dynamic characteristics and seismic responses of the SSI system and fixed‐base condition are analyzed and compared when the filling conditions are empty‐filled state, half‐filled state and full‐filled state. The numerical results reveal that the SSI effect reduces the seismic acceleration response of columned‐supported silos effectively. However, in terms of displacement, the SSI effect often amplifies the relative deformation of the supporting column and the cylindrical silos. Furthermore, the SSI effect often increases the relative dynamic lateral pressure of the storage material in the half‐filled silo condition. In the full‐filled silo condition, the relative dynamic lateral pressure at the top and bottom of the storage material is increased by the SSI effect; while it is decreased in the middle part of the granular solid, demonstrating that the SSI effect could change and increase the seismic responses of the silo structure in certain areas. Therefore, the investigation provides a comprehensive insight into the interaction mechanism of the pile–soil–silo structure with different filling conditions.
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