塑性铰区埋入高阻尼隔震橡胶层厚度的数值模拟分析
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摘要
钢筋混凝土(RC)桥墩一旦出现塑性铰后,混凝土的破坏主要集中在塑性铰区域,而且塑性铰区混凝土的损伤及破坏程度在较大程度上影响RC桥墩的抗震性能。本文希望通过在RC桥墩塑性铰区域埋入橡胶层来提高其变形能力、增强延性和耗能能力,改善传统RC桥墩的抗震性能。基于橡胶、混凝土和钢筋的本构模型及承载力—变形理论,采用条带法,本文提出了不同轴压比、不同层间位移角所需要橡胶层厚度的计算方法,并编制了计算程序;分析得到了不同轴压比、不同层间位移角的RC柱中所需埋入的橡胶层的最小厚度,为确定RC柱塑性铰区所埋入橡胶层厚度提供参考。
Generally,the damage of concrete is concentrated on the plastic hinge zone,once plastic hinge appears in reinforced concrete(RC) bridge pier.What's more,the damage condition of concrete has a large effect on the seismic performance of RC bridge pier.This paper aimed at developing a new type of RC bridge pier with a rubber layer built-in its plastic hinge zone,in which the deformation capacity,ductility and energy dissipation are increased.Based on the constitutive model of rubber material,concrete,steel and the theory of loading capacity-deformation,the calculation method used to estimate the thickness of rubber layer built in RC column with different axial load ratio and drift deformation was proposed in this paper,and a computing program was developed.The minimum thickness of high damping rubber built in RC column was presented with different axial load ratio and drift deformation,it can be used to calculate the thickness of rubber layer built in RC column.
Generally,the damage of concrete is concentrated on the plastic hinge zone,once plastic hinge appears in reinforced concrete(RC) bridge pier.What's more,the damage condition of concrete has a large effect on the seismic performance of RC bridge pier.This paper aimed at developing a new type of RC bridge pier with a rubber layer built-in its plastic hinge zone,in which the deformation capacity,ductility and energy dissipation are increased.Based on the constitutive model of rubber material,concrete,steel and the theory of loading capacity-deformation,the calculation method used to estimate the thickness of rubber layer built in RC column with different axial load ratio and drift deformation was proposed in this paper,and a computing program was developed.The minimum thickness of high damping rubber built in RC column was presented with different axial load ratio and drift deformation,it can be used to calculate the thickness of rubber layer built in RC column.
引文
[1]徐正忠,王亚勇,王迪民,等.GB50011-2001建筑抗震设计规范[S].北京:中国建筑工业出版社,2002.
[2]马宏旺,吕西林.建筑结构基于性能抗震设计的几个问题[J].同济大学学报,2002,30(12):1429-1434.
[3]王亚勇,白雪霜.台湾921地震中钢筋混凝土结构震害特征[J].工程抗震,2001(1):3-7.
[4]聂利英,李建中,范立础.弹塑性纤维梁柱单元及其单元参数分析[J].工程力学,2004,21(3):15-20.
[5]前田博司,岸本一歳,西山峰W.PC鋼材の付着すべりを考?したプレキャストPC部材の履歴働解析法[C]//2004年度JCIコンクリ?ト工学次年論文集.
[6]Kazuhiro Kawashima,Masanobu Nagi.Development of A Rein-forced Concrete Pier with ARubber Layer in the Plastic Hinge Re-gion[J].Journal of JSCE,2002(4):133-128.
[7]Mutsunori Yamagishi,Kazuhiro Kawashima.Development of ARubber Layer Built-in Reinforced Concrete Column in the PlasticHinge Region[J].Journal of JSCE,2004(1):43-62.
[8]Kawashima K,Watanabe G.Seismic performance of unbonded col-umns and isolator built-in columns based on cyclic loading tests[J].Second International Conference on Urban Earthquake Engi-neering March 7-8,2005,Tokyo Institute of Technology,Tokyo,Ja-pan.
[9]吕西林,金国芳,吴晓涵.钢筋混凝土结构非线性有限元理论与应用[M].上海:同济大学出版社,1996:109-117.
[10]程文瀼,康谷贻.混凝土结构[M].天津:天津大学出版社,2001.
[11]江见鲸,陆新征,叶列平.混凝土结构有限元分析[M].北京:清华大学出版社,2004.
[2]马宏旺,吕西林.建筑结构基于性能抗震设计的几个问题[J].同济大学学报,2002,30(12):1429-1434.
[3]王亚勇,白雪霜.台湾921地震中钢筋混凝土结构震害特征[J].工程抗震,2001(1):3-7.
[4]聂利英,李建中,范立础.弹塑性纤维梁柱单元及其单元参数分析[J].工程力学,2004,21(3):15-20.
[5]前田博司,岸本一歳,西山峰W.PC鋼材の付着すべりを考?したプレキャストPC部材の履歴働解析法[C]//2004年度JCIコンクリ?ト工学次年論文集.
[6]Kazuhiro Kawashima,Masanobu Nagi.Development of A Rein-forced Concrete Pier with ARubber Layer in the Plastic Hinge Re-gion[J].Journal of JSCE,2002(4):133-128.
[7]Mutsunori Yamagishi,Kazuhiro Kawashima.Development of ARubber Layer Built-in Reinforced Concrete Column in the PlasticHinge Region[J].Journal of JSCE,2004(1):43-62.
[8]Kawashima K,Watanabe G.Seismic performance of unbonded col-umns and isolator built-in columns based on cyclic loading tests[J].Second International Conference on Urban Earthquake Engi-neering March 7-8,2005,Tokyo Institute of Technology,Tokyo,Ja-pan.
[9]吕西林,金国芳,吴晓涵.钢筋混凝土结构非线性有限元理论与应用[M].上海:同济大学出版社,1996:109-117.
[10]程文瀼,康谷贻.混凝土结构[M].天津:天津大学出版社,2001.
[11]江见鲸,陆新征,叶列平.混凝土结构有限元分析[M].北京:清华大学出版社,2004.
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