Optimum energy-based design of BRB frames using nonlinear response history analysis

被引:0
作者
F. Rezazadeh
R. Mirghaderi
A. Hosseini
S. Talatahari
机构
[1] University of Tehran,Department of Civil Engineering, Faculty of Engineering
[2] University of Tabriz,Department of Civil Engineering
[3] Near East University,Engineering Faculty
来源
Structural and Multidisciplinary Optimization | 2018年 / 57卷
关键词
Energy based design; Buckling restrained brace frame; Non-linear response history analysis; Optimization; Charged system search;
D O I
暂无
中图分类号
学科分类号
摘要
In this paper, an optimum design method for buckling restrained brace frames subjected to seismic loading is presented. The multi-objective charged system search is developed to optimize costs and damages caused by the earthquake for steel frames. Minimum structural weight and minimum seismic energy which including seismic input energy divided by maximum hysteretic energy of fuse members are selected as two objective functions to find a Pareto solutions that copes with considered preferences. Also, main design constraints containing allowable amount of the inter-story drift and plastic rotation of beam, column members and plastic displacement of buckling restrained braces are controlled. The results of optimum design for three different frames are obtained and investigated by the developed method.
引用
收藏
页码:1005 / 1019
页数:14
相关论文
共 70 条
[1]  
Alemdar BN(2005)Displacement, flexibility, and mixed beam-column finite element formulations for distributed plasticity analysis J Struct Eng 131 1811-1819
[2]  
White DW(2009)A computer method for nonlinear inelastic analysis of 3D semi-rigid steel frameworks Eng Struct 31 3016-3033
[3]  
Chiorean CG(2002)MOPSO: A proposal for multiple objective particle swarm optimization Proc Cong Evol Comput 1 1051-1056
[4]  
Coello CA(2016)Optimum design of steel space frames including soil-structure interaction Struct Multidiscip Optim 54 117-131
[5]  
Lechuga MS(2002)A fast and elitist multi objective genetic algorithm:NSGA-II IEEE Trans Evol Comput 6 182-197
[6]  
Daloglu AT(2008)Optimum design of steel frames using harmony search algorithm Struct Multidiscip Optim 36 393-401
[7]  
Artar M(2010)Harmony search algorithm for minimum cost design of steel frames with semi-rigid connections and column bases Struct Multidiscip Optim 42 755-768
[8]  
Özgan K(2001)Advanced analysis of steel frames using parallel processing and vectorization Comput Aided Civ Infrastruct Eng 16 305-325
[9]  
Karakas A(1997)Inelastic analysis of partially restrained un-braced steel frames Eng Struct 19 891-902
[10]  
Deb K(1999)Inelastic behavior of multistory partially restrained steel frames Part I J Struct Eng 125 854-861
1234567