BRB不同布置高层钢框架BRBF静动力性能分析
Static and dynamic analysis of high-rise buckling-restrained braced steel frames with different arrangements of buckling-restrained braces
狄明 1王小鹏 2吴永松 2陈宜虎 3包恩和2
作者信息
- 1. 桂林电子科技大学建筑与交通工程学院,广西桂林 541004
- 2. 贵州大学土木工程学院,贵州贵阳 550025
- 3. 贺州学院建筑与电气工程学院,广西贺州 542800
- 折叠
摘要
以高层钢框架BRBF建筑为研究对象,以BRB不同布置形式为主要研究参量,对高层BRBF建筑进行二阶非线性分析,探讨高层BRBF建筑静动力性能,研究高层BRBF建筑中BRB最优设计方法.(1)从高层BRBF的静态持有性能来看,各高层BRBF建筑满足BRB减震及"强柱弱梁"的抗震设计要求,P-△效应对高层BRBF的弹塑性极限承载力和层刚度均有递减作用,忽略P-△效应影响会造成高层钢框架设计不安全;高层钢框架增设BRB,可改善P-△效应的影响;BRB交错布置的交错型建筑的稳定性好、弹塑性极限承载力值和层刚度值最大.(2)从高层BRBF的动态需求性能来看,高层钢框架增设BRB后各层的层间位移角和层间残余变形明显减小,BRB的塑性耗能占比基本在90%以上,说明BRB作为整体结构的第一道抗震防线,具备良好的耗能减震作用;同时,交错型建筑的减震、耗能效果显著.综上分析,高层钢框架BRBF结构中BRB交错布置方式最优.
Abstract
The high-rise steel frame structures with different arrangements of buckling-restrained braces as the main key parameters were designed.The static and dynamic performance of the high-rise buckling-restrained braced frames(BRBFs)was investigated by second-order non-linear analysis.Furthermore,an optimal design of buckling-restrained braces(BRBs)in high-rise BRBFs was proposed.The results are as follows:(1)From the perspective of static reserved performance of the high-rise BRBFs,the BRBFs structures with different arrangements of BRBs meet the energy dissipation capacities of BRBs and seismic design requirements of"strong-columns and weak-beams".A significant restraining effect of the P-△ effect on the high-rise BRBFs in terms of elastic-plastic ultimate bearing capacity and story stiffness was observed.As a result,without considering the P-△ effect for high-rise steel frame structures may result in unsafe seismic design,and adding the BRBs to high-rise steel frame structures can reduce the impact of the P-△ effect.In particular,the staggered-arrangement of BRBs on BRBFs has better stability,higher layer-stiffness and elastic-plastic ultimate bearing capacity.(2)From the perspective of dynamic demand performance of high-rise BRBFs,the inter-story displacement angle and residual deformation of each story were significantly reduced after the high-rise steel frame structures with additional BRBs,and the plastic energy dissipation ratio of BRBs is basically more than 90%.Therefore,the BRBs have good energy dissipation and seismic reduction as the first seismic defense line for the overall structure.In addition,the seismic reduction and energy dissipation behavior of the staggered-arrangement of BRBs on BRBFs was significant.In summary,the staggered-arrangement of BRBs is recommended as the optimal arrangement of BRBs in high-rise buckling-restrained braced steel frames.
关键词
高层BRBFs/BRB布置形式/P-△效应/静态持有性能/动态需求性能Key words
high-rise buckling-restrained braced steel frame/arrangement of buckling-restrained brace/P-△ effect/static reserved performance/dynamic demand performance引用本文复制引用
基金项目
广西创新驱动发展专项(科技重大专项)(AA19254030)
出版年
2024
NETL
NSTL
万方数据