高度可调摩擦摆隔震支座的力学性能
|
摘要
为了抗御强震动和基础不均匀沉降,研制出具有圆弧滑动面的新型高度可调摩擦摆隔震支座.通过滑动试验测定了可调节摩擦摆隔震支座的摩擦系数,在此基础上得到摩擦摆隔震结构的等效自振周期.理论分析证明:摩擦摆隔震支座的自振周期只和弧面半径R、摩擦系数μ、摩擦摆水平位移Dd有关,与结构质量等参数无关,具有良好的稳定性.高度可调摩擦摆隔震支座能够抗御强震动和基础不均匀沉降,并具有良好的自限、自复位功能和振动稳定性,无需附设阻尼向心机构,且在上部结构中不必考虑复杂的抗震措施.高度可调摩擦摆隔震支座结构简单,应用方便,宜在工程中推广应用.
In order to overcome the problems with strong seismic motion and uneven settlement of foundation,a new adjustable friction pendulum system(AFPS) with slip spherical face has been developed in this study.The friction coefficient of AFPS is measured in slipping test.Based on the data from slipping test the equivalent natural vibration period of AFPS is determined.Theoretical analysis proves that the equivalent natural vibration period of AFPS is related with the radius of spherical face R,friction coefficient μ and horizontal displacement Dd.On the other hand,it is uncorrelated with other parameters especially the gravity of upper structure.Therefore,AFPS is very stable.The new AFPS can not only overcome strong vibration and uneven settlement of foundation,but also can self-restrain and self-reset.The system has an excellent stability to overcome vibration without additional damped centripetal mechanism,and complicated seismic fortification measures in upper structure.Since the AFPS is simple in installation and convenient in practical usage,it is suitable for a wide application.
In order to overcome the problems with strong seismic motion and uneven settlement of foundation,a new adjustable friction pendulum system(AFPS) with slip spherical face has been developed in this study.The friction coefficient of AFPS is measured in slipping test.Based on the data from slipping test the equivalent natural vibration period of AFPS is determined.Theoretical analysis proves that the equivalent natural vibration period of AFPS is related with the radius of spherical face R,friction coefficient μ and horizontal displacement Dd.On the other hand,it is uncorrelated with other parameters especially the gravity of upper structure.Therefore,AFPS is very stable.The new AFPS can not only overcome strong vibration and uneven settlement of foundation,but also can self-restrain and self-reset.The system has an excellent stability to overcome vibration without additional damped centripetal mechanism,and complicated seismic fortification measures in upper structure.Since the AFPS is simple in installation and convenient in practical usage,it is suitable for a wide application.
引文
[1]韩强,刘文光,杜修力,等.橡胶隔震支座竖向性能试验研究[J].辽宁工程技术大学学报:自然科学版,2006,25(2):217-219.
[2]Zays V,law S S,Mahin S A.A simple pendulum technique for achieving seismic isolation[J].Earthquake Spectra,1990,6(2):312-331.
[3]Jangid R S,Datta T K,Sesmic behaviour of base isolated buildings:a state of the art rview[J].Structures and Buildings,1995,110(2):186-202.
[4]Tsopelas P,Constantinous M C,Kim Y S,et al.Experimental study of fps system in bridge seismic isolation[J].Earthquake Engineering and Structural Dynamic,1996,25:65-78.
[5]李大望,赵卓.摩擦系统稳态随机响应预测[J].世界地震工程,2000,16(3):101-104.
[6]Mostaghel N,Davis T.Representations of coulomb friction for dynamic analysis[J].Earthquake Engineering and Structural Dynamics,1997,26(5):541-548.
[7]樊剑,唐家祥.滑移隔震结构的动力特性及地震反应分析[J].土木工程学报,2000,33(4):11-16.
[8]杨林,周锡元,苏幼坡.FPS摩擦摆隔震体系振动台试验研究与理论分析[J].特种结构,2005,22(12):43-47.
[9]葛楠,苏幼坡,王兴国,等.圆弧滑道偏心辊轴摩擦摆隔震性能的分析研究[J].武汉理工大学学报,2010,32(9):246-25.
[10]Mokha A,Constantinou M C,Reihorn A M.Teflon bearings in base isolation[J].I:Testing Journal of Structural Engineering,ASCE,1990,116(2):438-454.
[2]Zays V,law S S,Mahin S A.A simple pendulum technique for achieving seismic isolation[J].Earthquake Spectra,1990,6(2):312-331.
[3]Jangid R S,Datta T K,Sesmic behaviour of base isolated buildings:a state of the art rview[J].Structures and Buildings,1995,110(2):186-202.
[4]Tsopelas P,Constantinous M C,Kim Y S,et al.Experimental study of fps system in bridge seismic isolation[J].Earthquake Engineering and Structural Dynamic,1996,25:65-78.
[5]李大望,赵卓.摩擦系统稳态随机响应预测[J].世界地震工程,2000,16(3):101-104.
[6]Mostaghel N,Davis T.Representations of coulomb friction for dynamic analysis[J].Earthquake Engineering and Structural Dynamics,1997,26(5):541-548.
[7]樊剑,唐家祥.滑移隔震结构的动力特性及地震反应分析[J].土木工程学报,2000,33(4):11-16.
[8]杨林,周锡元,苏幼坡.FPS摩擦摆隔震体系振动台试验研究与理论分析[J].特种结构,2005,22(12):43-47.
[9]葛楠,苏幼坡,王兴国,等.圆弧滑道偏心辊轴摩擦摆隔震性能的分析研究[J].武汉理工大学学报,2010,32(9):246-25.
[10]Mokha A,Constantinou M C,Reihorn A M.Teflon bearings in base isolation[J].I:Testing Journal of Structural Engineering,ASCE,1990,116(2):438-454.
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