您现在的位置:建筑结构>> 期 刊>> 2018年>> 第05期>>正文内容
上海新洲大楼抗震性能设计
邱鹏,汪崖,汪锋
摘 要

(上海市机电设计研究院有限公司, 上海 200040)

[摘要]新洲大楼采用新颖的大底盘转换悬挂钢框架\|剪力墙结构,整个结构中构筑了两个转换层,属于受力复杂的超限结构。对该项目进行了抗震性能化设计,根据构件的重要性给出了不同的性能目标,采用有限元数值方法对结构的多遇地震、设防地震弹性响应进行了分析,建立了弹塑性计算模型并进行了罕遇地震动力弹塑性时程分析,综合评估了结构的地震响应与承载性能。弹性与弹塑性分析的结果表明,新洲大楼能满足规范的各项抗震设防要求与各项既定的抗震性能化目标,整个结构具有可靠的抗震承载能力。

[关键词]大底盘结构; 悬挂框架; 性能目标; 弹塑性时程分析

中图分类号:TU352-11文献标识码:A文章编号:1002-848X(2018)05-0038-05

 

Performance-based seismic design of  Xinzhou Building in Shanghai

Qiu Peng, Wang Ya, Wang Feng

(Shanghai Institute of Mechanical & Electrical Engineering Co., Ltd., Shanghai 200040, China)

Abstract:Xinzhou Building adopts an innovative structural system which consists of enlarged-base structure with conversion layer, suspended steel frame and shear wall structure. It has two conversion layers and belongs to out-of-code structure under complicated stress. Performance-based seismic design was conducted to this project. Different performance objectives were given according to the importance of the members. Finite element numerical method was used to analyze the structural elastic responses under frequent and fortification earthquakes. Elasto-plastic calculation model was made to conduct dynamic elasto-plastic time-history analysis under rare earthquake. Seismic response and bearing capacity were overall evaluated. The result shows that Xinzhou Building can meet the specification requirements for seismic resistance and set seismic performance objectives, and has reliable seismic bearing capacity.

Keywords:enlarged-base structure; suspended frame; performance objective; elasto-plastic time-history analysis

 

作者简介:邱鹏,硕士,高级工程师,一级注册结构工程师,Email:qiupeng81@163.com。

下载地址

    你还没注册?或者没有登录?这篇论文要求至少是本站的注册会员才能阅读!

    如果你还没注册,请赶紧点此注册吧!

    如果你已经注册但还没登录,请赶紧点此登录吧!