阻尼对工程结构等延性地震抗力谱的影响分析
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摘要
在基于位移的抗震设计理论中,等延性地震抗力谱对拟建结构的初步设计具有十分重要的作用.利用大量的单自由度体系在不同强震记录作用下的弹塑性动力时程分析结果,从定性到定量详尽研究了阻尼对等延性地震抗力谱的影响规律,得出结论:阻尼对等延性地震抗力谱的影响,不但随场地的不同而不同,而且受延性系数及单质点体系周期的影响较大;要精确考阻尼对等延性地震抗力谱的影响,必须根据其所在的场地条件、结构延性系数及周期确定.最后,根据回归分析结果,给出了阻尼影响等延性地震抗力谱的修正公式,其成果可供抗震研究和设计参考应用.
In the displacement-based design,the constantductility seismic resistance spectra are very useful for the preliminary design of new structures where the global displacement ductility capacity is known,which can provide the required inelastic lateral strength of new structures from the required elastic lateral strength.The influences of period of vibration,level of ductility ratio,damping,etc.on constant-ductility seismic resistance spectra are investigated in this paper.And the special emphasis is given to influence analysis of damping on the inelastic spectra.A statistical study is performed of inelastic response computed for different damping ratio SDOF systems with different levels of lateral yielding strength required to maintain the given displacement ductility ratio when subjected to a large number earthquake accelerations.It is concluded that the damping′s effects on constant-ductility seismic resistance spectra are rather complex.It depends on not only site conditions but also the level of ductility ratio and the natural period of structures as well. Finally,results from non-linear regression analysis are presented that provide a simplified expression to be used to approximated quantify the damping influence.Numerical analysis shows the simplified expressions are adequate for the seismic design of structures.
In the displacement-based design,the constantductility seismic resistance spectra are very useful for the preliminary design of new structures where the global displacement ductility capacity is known,which can provide the required inelastic lateral strength of new structures from the required elastic lateral strength.The influences of period of vibration,level of ductility ratio,damping,etc.on constant-ductility seismic resistance spectra are investigated in this paper.And the special emphasis is given to influence analysis of damping on the inelastic spectra.A statistical study is performed of inelastic response computed for different damping ratio SDOF systems with different levels of lateral yielding strength required to maintain the given displacement ductility ratio when subjected to a large number earthquake accelerations.It is concluded that the damping′s effects on constant-ductility seismic resistance spectra are rather complex.It depends on not only site conditions but also the level of ductility ratio and the natural period of structures as well. Finally,results from non-linear regression analysis are presented that provide a simplified expression to be used to approximated quantify the damping influence.Numerical analysis shows the simplified expressions are adequate for the seismic design of structures.
引文
[1]翟长海,公茂盛,张茂花,等.工程结构等延性地震抗力谱研究[J].地震工程与工程振动,2004,24(1):22-29.
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[5]KAPPOS A J.Evaluation of behavior factors on the basisof ductility and over-strength stud ies[J].EngineeringStructures,1999,21(3):823-835.
[6]WH ITTAKER A,CONSTANTINOUSM,TSOPELAS P.D isp lacem ent Estim ates for perform ance-based se ism icdesign[J].Journal of Structure Engineering,ASCE,1998,10(8):905-912.
[7]BORZI B,CALVI G M,ELNASHAI A S,et al.Inelas-tic spectra for d isp lacem ent-based se ism ic design[J].Soil Dynam ics and Earthquake Engineering,2001,26(1):47-61.
[8]卓卫东,范立础.结构抗震设计中的强度折减系数研究[J].地震工程与工程振动,2001,21(1):84-88.
[9]ZHU X,NI Y J.Strength reduction factor spectra basedon structural dam age perform ance[A].Spencer and Hu.Proceed ings of the Ch ina-U.S.A.M illenn ium Symposi-um on Earthquake Engineering[C].2000,Be ijing Ch i-na,2001.
[9]LEE Y H,HAN S W,OH Y H.Determ ination of duc-tility factor considering d ifferent hysteretic models[J].Earthquake Engineering and Structural Dynam ics,1999,28:957-977.
[11]马东辉,李虹,苏经宇,等.阻尼比对设计反应谱的影响分析[J].工程抗震,1995,(4):35-40.
[2]M IRANDA E,BERTERO V.Evaluation of strength re-duction factors for earthquake-resistant design[J].Earthquake Spectra,1994,10(2):123-131.
[3]FAJFAR P,VID IC T.Consistent inelastic design spec-tra:Strength and d isp lacem ent[J].Earthquake Engi-neering and Structural Dynam ics,1994,23:507-521.
[4]BORZI B,ELNASHAIA S.Refined force reduction fac-tors for se ism ic design[J].Engineering Structures,2000(2):1 244-1 260.
[5]KAPPOS A J.Evaluation of behavior factors on the basisof ductility and over-strength stud ies[J].EngineeringStructures,1999,21(3):823-835.
[6]WH ITTAKER A,CONSTANTINOUSM,TSOPELAS P.D isp lacem ent Estim ates for perform ance-based se ism icdesign[J].Journal of Structure Engineering,ASCE,1998,10(8):905-912.
[7]BORZI B,CALVI G M,ELNASHAI A S,et al.Inelas-tic spectra for d isp lacem ent-based se ism ic design[J].Soil Dynam ics and Earthquake Engineering,2001,26(1):47-61.
[8]卓卫东,范立础.结构抗震设计中的强度折减系数研究[J].地震工程与工程振动,2001,21(1):84-88.
[9]ZHU X,NI Y J.Strength reduction factor spectra basedon structural dam age perform ance[A].Spencer and Hu.Proceed ings of the Ch ina-U.S.A.M illenn ium Symposi-um on Earthquake Engineering[C].2000,Be ijing Ch i-na,2001.
[9]LEE Y H,HAN S W,OH Y H.Determ ination of duc-tility factor considering d ifferent hysteretic models[J].Earthquake Engineering and Structural Dynam ics,1999,28:957-977.
[11]马东辉,李虹,苏经宇,等.阻尼比对设计反应谱的影响分析[J].工程抗震,1995,(4):35-40.
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