具有水平加强层高层钢结构的动力特性及抗震性能分析
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摘要
高层钢结构自身刚度较小,水平荷载起控制作用,设置水平加强层可以控制其变形。本文运用大型通用有限元软件ANSYS,建立三维计算模型,对北京某一高层钢结构进行动力特性分析。通过模态分析,得到了该结构的振型和周期,然后进行了振型分解反应谱分析,最后采用3条地震波,对该结构进行弹性时程分析。通过分析表明,水平加强层可以减小结构的最大位移和层间位移角,但加强层附近存在薄弱层,需要设计人员注意。用ANSYS作校核计算,能为结构抗震设计提供可靠的依据。
Level load plays controlling actions in high-rise steel structure buildings for its low stiffness,and horizontal strengthened floors control its drifts.Based on finite element analysis(FEA) software ANSYS,the dynamic characteristics of a high-rise steel structure building is analyzed by building 3-D model.First,the structure own free-vibrations and periods are obtained from mode analysis.Then,analysis of response spectrum on the Seismic Properties is discussed.Elastic time history method is used to get whole analysis of the structure adopting three seismic waves finally.As a result,the maximal drift and interstorey drifts are reduced by horizontal strengthened floors,but there are unsubstantial floors around these floors,and it is necessary to pay attention for civil engineers.The credible aseismic gist is provided by ANSYS for checking the results.
Level load plays controlling actions in high-rise steel structure buildings for its low stiffness,and horizontal strengthened floors control its drifts.Based on finite element analysis(FEA) software ANSYS,the dynamic characteristics of a high-rise steel structure building is analyzed by building 3-D model.First,the structure own free-vibrations and periods are obtained from mode analysis.Then,analysis of response spectrum on the Seismic Properties is discussed.Elastic time history method is used to get whole analysis of the structure adopting three seismic waves finally.As a result,the maximal drift and interstorey drifts are reduced by horizontal strengthened floors,but there are unsubstantial floors around these floors,and it is necessary to pay attention for civil engineers.The credible aseismic gist is provided by ANSYS for checking the results.
引文
[1]徐培福.复杂高层建筑结构设计[M].北京:中国建筑工业出版社,2005.
[2]黄怡,王元清,陈宏,温四清.水平加强层对超高层钢框架-支撑结构的影响[J].重庆建筑大学学报.2005,27(3):49~56.
[3]雷胜梅,殷祥超,徐杰.徐州某建筑结构的动力特性及地震反应分析[J].工程抗震与加固改造,2005,27(4):16~19.
[4]GB50011-2001,建筑抗震设计规范[S].北京:建筑工业出版社,2001.
[5]王元清,黄怡,陈宏,温四清.遇合法则及振型数目对超高层反应谱分析影响[J].华中科技大学学报(城市科学版),2005,22(3):61~65.
[6]北京金土木软件技术有限公司,中国建筑标准设计研究院.ETABS中文版使用指南[M].北京:中国建筑工业出版社,2004.
[7]龚思礼等.建筑抗震设计[M].北京:中国建筑工业出版社,1994.
[2]黄怡,王元清,陈宏,温四清.水平加强层对超高层钢框架-支撑结构的影响[J].重庆建筑大学学报.2005,27(3):49~56.
[3]雷胜梅,殷祥超,徐杰.徐州某建筑结构的动力特性及地震反应分析[J].工程抗震与加固改造,2005,27(4):16~19.
[4]GB50011-2001,建筑抗震设计规范[S].北京:建筑工业出版社,2001.
[5]王元清,黄怡,陈宏,温四清.遇合法则及振型数目对超高层反应谱分析影响[J].华中科技大学学报(城市科学版),2005,22(3):61~65.
[6]北京金土木软件技术有限公司,中国建筑标准设计研究院.ETABS中文版使用指南[M].北京:中国建筑工业出版社,2004.
[7]龚思礼等.建筑抗震设计[M].北京:中国建筑工业出版社,1994.
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