首页|期刊导航|岩土力学|倾斜液化场地地铁车站地震响应和损伤特征研究

倾斜液化场地地铁车站地震响应和损伤特征研究OA

Seismic response and damage characteristics of subway stations in inclined liquefiable sites

中文摘要英文摘要

将Mazars损伤变量引入到Drucker-Prager(D-P)本构模型中,在有限差分软件FLAC3D平台上开发了循环动力损伤本构模型(Damage模型).采用开发的损伤本构模型,建立了倾斜液化场地的地铁车站计算模型,考虑不同地震强度、不同地面倾角等多种工况,对地铁车站进行动力分析,探讨地铁车站在倾斜液化场地中的损伤分布与发展特征.结果表明:车站损伤量随着地震强度和地面倾角的增大而增大,且易发生在墙、板、柱连接的位置;在倾斜液化场地中,由于液化土层的水平运动和土压力作用,使得地铁车站同时发生了上浮、滑移和转动变形,在地震峰值加速度为0.3g和地表倾斜角度为1°、2°、3°时,地铁车站的层间位移角分别为1/294、1/234、1/217,同时迎土侧墙的损伤量明显大于背土侧墙的损伤量,车站结构比水平液化场地更易发生破坏.通过对比分析场地液化区分布、地铁车站的变形和损伤特征,可为倾斜液化场地的地铁车站设计施工提供理论依据.

In this study,a cyclic dynamic damage constitutive model(referred to as the Damage model)was developed within the finite difference software FLAC3D by incorporating the Mazars damage variable into the Drucker-Prager(D-P)constitutive model.Using this proposed model,a numerical model of a subway station in an inclined liquefiable site was established.Dynamic analyses were conducted under various working conditions,considering different earthquake intensities and ground inclinations,to investigate the damage distribution and evolution characteristics of the subway station.The results indicate that the damage value increases with increasing earthquake intensity and ground inclination,and damage is likely to occur at the connections between walls,slabs,and columns.In an inclined liquefiable site,the subway station experiences simultaneous uplift,sliding,and rotational deformation due to the horizontal movement of the liquefied soil layer and the action of earth pressure.When the peak ground acceleration is 0.3g and the surface inclination angles are 1°,2°,and 3°,the inter-story drift ratios of the subway station are 1/294,1/234,and 1/217,respectively.Furthermore,the damage value on the earth-facing side wall is significantly greater than that on the opposite side wall,indicating that the station structure is more prone to damage in inclined liquefiable sites than in horizontal liquefiable sites.The comparative analysis of the liquefaction zone distribution,deformation,and damage characteristics of the subway station provides a theoretical basis for the design and construction of subway stations in inclined liquefiable sites.

张西文;江晓童;吕颖慧;邱宇;刘福震

济南大学 土木建筑学院,山东 济南 250022济南大学 土木建筑学院,山东 济南 250022济南大学 土木建筑学院,山东 济南 250022济南大学 土木建筑学院,山东 济南 250022济南大学 土木建筑学院,山东 济南 250022

建筑与水利

砂土液化损伤本构地铁车站倾斜场地地震损伤

sand liquefactiondamage constitutive modelsubway stationinclined fieldseismic damage

《岩土力学》 2026 (3)

1022-1030,9

山东省自然科学基金面上项目(No.ZR2023ME070). This work was supported by Shandong Provincial Natural Science Foundation(ZR2023ME070).

10.16285/j.rsm.2025.0286

评论