不同肢长异型柱框架结构弹塑性时程分析
|
摘要
为提高异型柱框架结构的抗震性能,笔者利用DRAIN-2DX程序,对长肢、底层长肢异型柱框架以及普通异型柱框架分别进行了弹塑性时程地震反应计算,较系统地分析了肢长的变化对结构整体地震反应的影响,为合理确定长肢异型柱的设计参数提供了数值分析依据.得出增大薄弱层异型柱肢长能够显著提高异型柱框架结构的抗震性能的结论.底层长肢异型柱框架能有效地克服了普通异型柱框架底层的薄弱现象;各层层间位移分布更为均匀,有利于抗震;对控制各层位移比普通异型柱框架更为有效.
In order to improve the special-shaped column frame structure's earthquake-bearing ability,DRAIN-2DX program is used in this paper to calculate the nonlinear dynamic character of the RC frame with long-flange columns,long-flange columns only in the bottom and common special-shaped columns.Then by numbers,the length of the flange change's effects on the whole structure's reaction to an earthquake will be analyzed to provide evidence for choosing the correct design static of R.C.frame with long-flange columns.The conclusion is that lengthening the flange of the special-shaped column in the bottom can really improve the earthquake-bearing ability of the special-shaped column frame structure,and the special-shaped column frame of long-flange columns only in the bottom can get rid off the disadvantages of the common special-shaped column frame.The inter-bedded displacement is more reasonable to bear the earthquake and it is more efficient to control the displacement.
In order to improve the special-shaped column frame structure's earthquake-bearing ability,DRAIN-2DX program is used in this paper to calculate the nonlinear dynamic character of the RC frame with long-flange columns,long-flange columns only in the bottom and common special-shaped columns.Then by numbers,the length of the flange change's effects on the whole structure's reaction to an earthquake will be analyzed to provide evidence for choosing the correct design static of R.C.frame with long-flange columns.The conclusion is that lengthening the flange of the special-shaped column in the bottom can really improve the earthquake-bearing ability of the special-shaped column frame structure,and the special-shaped column frame of long-flange columns only in the bottom can get rid off the disadvantages of the common special-shaped column frame.The inter-bedded displacement is more reasonable to bear the earthquake and it is more efficient to control the displacement.
引文
[1] GB50011-2001建筑抗震规范[S].
[2] GB50011-2002混凝土结构设计规范[S].
[3] 徐超,赵成文,李兆明.约束高强混凝土受弯构件非线性分析[J].沈阳建筑工程学院学报,2003,1(1):8-11.
[4] 韩丽婷,李杰.异型柱框-桁架结构的抗震性能研究[J].建筑结构,2002,5(5):44-46.
[5] 张晋,吕志涛,冯建.异型柱框轻和短肢剪力墙住宅结构体系[J].建筑结构,2001,7(7):48-50.
[6] TsaoWHandHsuCTT.ANonlinearComputerAnalysisofBiaxiallyLoadedL shapedSlenderReinforcedConcretedColumns[J].Computers&Structures,1993,49(4):579-588.
[7] MallikarjunaandP.Mahadevappa.ComputerAidedAnalysisofReinforcedConcreteColumnsSubjectedtoAxialCompressionandBending IL shapedSections[J].Computers&Structures,1992.44(5):1121-1138.
[8] 周明杰,吴建有,曹万林等.异型柱框架地震反应计算分析[J].世界地震工程,1996,11(4):31-35.
[9] 丁永君.DRAIN-2D计算程序在高层建筑结构弹塑性变形分析中的应用[J].建筑结构,1994,12(12):18-22.
[2] GB50011-2002混凝土结构设计规范[S].
[3] 徐超,赵成文,李兆明.约束高强混凝土受弯构件非线性分析[J].沈阳建筑工程学院学报,2003,1(1):8-11.
[4] 韩丽婷,李杰.异型柱框-桁架结构的抗震性能研究[J].建筑结构,2002,5(5):44-46.
[5] 张晋,吕志涛,冯建.异型柱框轻和短肢剪力墙住宅结构体系[J].建筑结构,2001,7(7):48-50.
[6] TsaoWHandHsuCTT.ANonlinearComputerAnalysisofBiaxiallyLoadedL shapedSlenderReinforcedConcretedColumns[J].Computers&Structures,1993,49(4):579-588.
[7] MallikarjunaandP.Mahadevappa.ComputerAidedAnalysisofReinforcedConcreteColumnsSubjectedtoAxialCompressionandBending IL shapedSections[J].Computers&Structures,1992.44(5):1121-1138.
[8] 周明杰,吴建有,曹万林等.异型柱框架地震反应计算分析[J].世界地震工程,1996,11(4):31-35.
[9] 丁永君.DRAIN-2D计算程序在高层建筑结构弹塑性变形分析中的应用[J].建筑结构,1994,12(12):18-22.
版权所有:© 2023 中国地质图书馆 中国地质调查局地学文献中心