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平面不对称结构非弹性地震反应分析的平扭耦联Bouc-Wen模型 被引量:3

Lateral-torsional coupling Bouc-Wen model for inelastic seismic response analysis of plan-asymmetric structure
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摘要 综合考虑强度退化、刚度退化、捏拢效应等典型滞回特性的影响,建立了双向地震作用下平面不对称结构非弹性地震动力响应分析的平扭耦联Bouc-Wen模型。该模型采用圆形屈服面来描述双向抗侧恢复力之间的耦合效应,而采用锥体或球体屈服面来描述双向抗侧和抗扭恢复力之间的耦合效应,并结合69条强震记录,定量地分析了平扭耦联效应对平面不对称结构地震延性需求的概率统计特征的影响。计算结果显示:球体屈服面比锥体屈服面更能合理描述双向抗侧恢复力和抗扭恢复力之间的耦合效应;地震延性需求的均值随着规一化屈服强度和非耦联平动自振周期的减小而增大。当非耦联平动自振周期较大时,地震延性需求的均值的对数与规一化屈服强度的对数近似成线性关系。平扭耦联效应可以明显增大地震延性需求的变异性,当非耦联平动自振周期和规一化屈服强度较小时尤为明显。 A new lateral-torsional coupling Bouc-Wen model for inelastic seismic dynamic response analysis of plan-asymmetric structure under bidirectional horizontal excitations was developed considering the strength degradation,stiffness deterioration and pinching effect.In this model,the circular yield surface is adopted to describe the coupling effect between biaxial normalized lateral restoring forces,while the pyramidal or spherical yield surface is adopted to consider the coupling effect between lateral and torsional restoring forces.The influence of lateral-torsional coupling on the statistical characteristic of seismic ductility demand of plan-asymmetric structure was investigated using 69 earthquake records.Analysis results show that the spherical yield surface is better than the pyramidal yield surface to describe the lateral-torsional coupling effect.The mean value of seismic ductility demands increases with the decrease of the normalized yield strength and the uncoupled lateral vibration period.The relation between the logarithms of the seismic ductility demand and the normalized yield strength is almost linear,when the uncoupled lateral vibration period is long.The lateral-torsional coupling effect can amplify the variation of the seismic ductility demands obviously,especially when the normalized yield strength is small and the uncoupled lateral vibration period is short.
作者 余波 杨绿峰
机构地区 广西大学工程防灾与结构安全教育部重点实验室 广西壮族自治区住房和城乡建设厅
出处 《地震工程与工程振动》 CSCD 北大核心 2011年第6期78-87,共10页 Earthquake Engineering and Engineering Dynamics
基金 国家自然科学基金项目(50768001 51168003) 国家留学基金委研究生专项项目(2008666001) 广西自然科学基金项目(桂科自0991020Z)
关键词 地震延性需求 平扭耦联效应 强度退化 刚度退化 捏拢效应 seismic ductility demand lateral-torsional coupling effect strength degradation stiffness degradation pinching effect
分类号 P315.2 [天文地球—地震学] TU311.2 [建筑科学—结构工程]
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参考文献25

  • 1王墩,吕西林.平面不规则结构非弹性扭转地震反应研究进展[J].地震工程与工程振动,2010,30(2):51-58. 被引量:21
  • 2Lucchini A, Monti G , Kunnath S. Seismic behavior of single-story asymmetric-plan buildings under uniaxial excitation [J]. Earthquake Engineering & Structural Dynamics, 2009, 38 (9): 1053 - 1070.
  • 3De Stefano M, Pintucchi B. A review of research on seismic behaviour of irregular building structures since 2002 [J]. Bultetin of Earthquake Engineering, 2008, 6 (2) : 285 - 308.
  • 4Perus L, Fajfar P. On the inelastic torsional response of single-storey structures under bi-axial excitation [J]. Earthquake Engineering & Structural Dynamics, 2005, 34(8): 931-941.
  • 5Goel R K, Chopra A K. Inelastic seismic response of one-storey, asymmetric-plan systems: Effects of system parameters and yielding [J]. Earthquake Engineering & Structural Dynamics, 1991, 20 ( 3 ) : 201 - 222.
  • 6Ryan K L, Chopra A K. Estimation of seismic demands on isolators based on nonlinear analysis [ J]. Journal of Structural Engineering, 2004, 130 ( 3 ) : 392 - 402.
  • 7Ryan K L, Chopra A K Estimating the seismic displacement of friction pendulum isolators based on non-linear response history analysis [J]. Earthquake Evgineering & Structural Dynamics, 2004, 33 (3): 359 - 373.
  • 8Marusic D, Fajfar P. On the inelastic seismic response of asymmetric buildings under bi-axial excitation [ J ]. Earthquake Engineering & Structural Dynamics, 2005, 34(8): 943-963.
  • 9Dutta S C. Effect of strength deterioration on inelastic seismic torsional behaviour of asymmetric RC buildings [J]. Building and Environment, 2001, 36(10) : 1109 - 1118.
  • 10Syamal P K, Pekau O A. Dynamic response of bilinear asymmetric structures [J]. Earthquake Engineering & Structural Dynamics, 1985, 13 (4) : 527 -541.

二级参考文献53

  • 1何晓宇,李宏男.偏心形式对偏心结构扭转耦联地震响应的影响[J].世界地震工程,2008,24(3):36-44. 被引量:14
  • 2王墩,阿肯江·托呼提,李娥琼.关于建筑结构偶然偏心问题的讨论[J].工业建筑,2008,38(Z1):290-293.
  • 3徐培福,黄吉锋,韦承基.高层建筑结构的扭转反应控制[J].土木工程学报,2006,39(7):1-8. 被引量:89
  • 4DBJ/T-15-46-2005广东省实施《高层建筑混凝土结构技术规程》(JGJ3-2002)补充规定[s].北京:中国建筑工业出版社.2005.
  • 5Ayre R S. Interconnection of translational and torsional vibrations in buildings[ J] . Bulletin of the Seismological Society of America, 1938, 28 : 89 - 130.
  • 6Rosenblueth E. Aseismic provisions for the federal district, Mexico [ C ] // Proceedings of the 2nd World Conference on Earthquake Engineering, Tokyo, 1960 : 2009 - 2026.
  • 7Tezcan S S, Alhan C. Parametric analysis of irregular structures under seismic loading according to the new Turkish Earthquake Code[ J]. Engineering Structures, 2001,23:600-609.
  • 8Rutenberg A, Pekau O A. Earthquake response of asymmetric buildings: a parametric study[ C ]//Proc. 4th Canadian Conference on Earthquake Engineering, Vancouver, 1983 : 271 -281.
  • 9Chopra A K. Dynamics of structures: theory and applications to earthquake engineering[ M ]. 3rd ed. University of California at Berkeley ,2007: 3-8.
  • 10Kan C L, Chopra A K. Torsional coupling and earthquake response of simple elastic and inelastic systems [ J]. Joumal of Structural Divisions, 1981, 107 : 1569 - 1588.

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地震工程与工程振动
2011年 第6期

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