超限高层建筑深基坑支护承压结构抗震性能研究

doi:10.16046/j.cnki.issn2096-5680.2025.04.008

河北水利电力学院学报 ›› 2025, Vol. 35 ›› Issue (4): 46-50.DOI: 10.16046/j.cnki.issn2096-5680.2025.04.008

超限高层建筑深基坑支护承压结构抗震性能研究

张延

滁州职业技术学院建筑工程学院,安徽省滁州市南谯区丰乐大道2188号 239000

收稿日期:2023-11-23 修回日期:2025-09-10 出版日期:2025-11-30 发布日期:2026-01-05
作者简介:张延(1986-),女,安徽宿州人,硕士研究生,讲师,研究方向:建筑与土木工程。E-mail:tgbus898@126.com
基金资助:
安徽省2024年中青年教师培养行动项目(YQYB2024141);滁州职业技术学院重点科研项目(ZKZ-2024-6)

Research on Seismic Performance of Deep Foundation Pit Support and Pressure Bearing Structures in High-rise Buildings Beyond Limit

ZHANG Yan

School of Construction Engineering, Chuzhou Polytechnic, 239000, Chuzhou, Anhui, China

Received:2023-11-23 Revised:2025-09-10 Online:2025-11-30 Published:2026-01-05

摘要/Abstract

摘要： 为了研究地震作用下超限高层建筑深基坑支护承压结构的抗震性能,针对超限高层建筑深基坑支护承压结构进行抗震性试验分析,通过试验结果实现对深基坑支护承压结构的最佳设计。依据某高层深基坑建设项目,制作试验试件,并采用有限元数值模拟软件建立深基坑支护承压结构的计算模型,结合地震振动台模拟地震环境,通过输入地震波测算能够反映结构抗震效果的延性、刚度以及承载力指标,从而根据试验结果分析支护结构的抗震性能。试验结果表明,深基坑的深度越大,结构的延性越高,抗震性能越好;深基坑支护承压结构地下连续墙的标高越大,基坑支护的侧向刚度就越大,抗震效果越好;当结构坡比为0.8时,结构的抗震性能最佳。

关键词: 高层建筑, 支护结构, 试验分析, 抗震性能

Abstract: In order to study the seismic performance of the deep foundation pit support and pressure bearing structure of high-rise buildings under earthquake, a seismic test analysis was conducted on such bearing structure to achieve the optimal design of the deep foundation pit support and pressure bearing structure based on the test results. Based on a high-rise deep foundation pit construction project, test specimens were made and finite element numerical simulation software was used to establish a calculation model for the deep foundation pit support pressure bearing structure. Combined with seismic shaking table in simulation of the seismic environment, ductility, stiffness, and bearing capacity indicators that could reflect the seismic effect of the structure were calculated through inputting seismic waves. Therefore, the seismic performance of the support structure was analyzed based on the test results. The experimental results indicated that the deeper the deep foundation pit, the higher the ductility of the structure and the better its seismic performance, the higher the elevation of the underground diaphragm wall of the deep foundation pit support pressure bearing structure, the greater the lateral stiffness of the foundation pit support, and the better the seismic effect. When the structural slope ratio was 0.8, the seismic performance of the structure was optimal.

Key words: high-rise buildings, supporting and pressure bearing structures, test analysis, seismic performance

中图分类号:

TU753
TU473

张延. 超限高层建筑深基坑支护承压结构抗震性能研究[J]. 河北水利电力学院学报, 2025, 35(4): 46-50.

ZHANG Yan. Research on Seismic Performance of Deep Foundation Pit Support and Pressure Bearing Structures in High-rise Buildings Beyond Limit[J]. Hebei University of Water Resources and Electric E, 2025, 35(4): 46-50.

参考文献

[1] 廖德芳,张肖峰.换流站主控楼框架结构抗震性能分析[J].砖瓦,2023(10):77-79.
[2] 欧飞奇.地铁预制装配式车站结构抗震性能数值研究[J].现代城市轨道交通,2023(9):81-88.
[3] 王秋慧,刘俊,唐枫华,等.带自复位SMA支撑的钢框架结构抗震性能研究[J].建筑科学,2023,39(9):53-61.
[4] 王建宁,张广宇,徐建,等.考虑多次余震作用的地下结构抗震性能研究[J].振动与冲击,2023,42(17):70-77+174.
[5] 王雷雷,韩晓飞,王跃杰,等.芮城县房屋建筑抽样详查结果及典型结构抗震性能分析[J].山西地震,2023(3):12-17.
[6] 杜修力,潘颖超,赵密,等.采用不同新型功能柱的地下车站结构抗震性能对比研究[J].工程抗震与加固改造,2023,45(3):91-101.
[7] 王述超.钢管混凝土异形柱框架结构抗震性能分析[J].砖瓦,2023(9):83-85+89.
[8] 史云婷.不同剪力墙筒体位置对框筒结构抗震性能的影响[J].四川水泥,2023(9):86-89.
[9] 陈深,宁宁,张纪刚,等.开洞填充墙RC框架结构抗震性能分析[J].青岛理工大学学报,2023,44(4):91-100.
[10] 唐丽娜,章一萍,周练,等.组合式烧结隔墙板-钢筋混凝土框架结构抗震性能研究[J].新型建筑材料,2023,50(8):35-39+58.
[11] 马纳静,贾振睿.基于消能减震技术的高层框支剪力墙结构抗震性能研究[J].城市建设理论研究,2023(22):104-106.
[12] STEIN B. A vertical seismic profile(VSP)experiment in the research borehole konzen, hohes venn (west germany)[J].Neues Jahrbuch für Geologie und Paläontologie-Abhandlungen,2023,171(1-3):447-452.
[13] ZHAO C, WANG G, ZHENG T. Research on the hysteretic performance of flower-gusset composite joints for single-layer aluminium alloy lattice shell structures:[J].Advances in structural engineering, 2022,25(1):171-187.
[14] PROTASOV M, SILVESTROV I, BAKULIN A. Research Note: Signal‐to‐noise ratio computation for challenging land single‐sensor seismic data[J].Geophysical Prospecting, 2022,70(3):629-638.
[15] HUANG Q, GAO H, LIU N, et al.Shaking table model test on seismic response of metro tunnel crossing ground fissuresite[J].Journal of Geomechanics, 2022,24(6):785-794.

超限高层建筑深基坑支护承压结构抗震性能研究

Research on Seismic Performance of Deep Foundation Pit Support and Pressure Bearing Structures in High-rise Buildings Beyond Limit

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