不规则截面地下结构振动台试验模型的数值模拟

Baizan Tang , Wenchao Deng , Su Chen , Xiaojun Li , Haiyang Zhuang
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引用次数: 2

摘要

基于软土地基上不规则截面地铁车站结构的大振动台试验结果,进行了土体-不规则地下结构非线性动力相互作用的整体时程数值模拟研究。分析了典型试验结果,包括土体的加速度、结构的加速度和变形。验证了仿真结果与试验结果的一致性,并详细讨论了仿真结果与试验结果的差异。输入PGA = 0.54 g时,最大层间漂移比约为1/472。柱的应变响应明显大于边墙和板的应变响应。不规则地铁车站结构的下层构件,特别是中心柱,受到了累积损伤。研究结果可为定量评价软土中不规则地下结构的损伤提供一种简化的分析方法。
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Numerical simulation of irregular section underground structure shaking table test model

Based on the the large shaking table test results on irregular section subway station structure in soft soil, an overall time-history numerical simulation is conducted to study the nonlinear dynamic interaction of the soil-irregular underground structure. Typical test results, including the acceleration of the soil, acceleration, and deformation of the structure, were analyzed. Satisfactory consistency between the simulation and test results is verified, and the difference between these results was discussed in detail. The maximum inter-story drift ratio was approximately 1/472 under input PGA ​= ​0.54 g. The strain responses of columns were significantly larger than those of the side walls and slabs. The components in the lower layers of the irregular subway station structure, particularly in the central columns, underwent cumulative damage. The research results could provide a simplified analysis method to quantitatively evaluate the damage of irregular underground structures in soft soil.

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