广西科技大学学报
廣西科技大學學報
엄서과기대학학보
Journal of Guangxi University of Technology
2015年
2期
20-25,30
,共7页
粘弹性阻尼器%基础隔震%平稳白噪声激励%扩阶复模态法
粘彈性阻尼器%基礎隔震%平穩白譟聲激勵%擴階複模態法
점탄성조니기%기출격진%평은백조성격려%확계복모태법
viscoelastic damper%base isolation%stationary white noise excitation%expansion complex modal method
为设置粘弹性阻尼器的多层基础隔震结构平稳地震响应分析的扩阶复模态法。在建立了结构上、下部的运动方程以及阻尼器阻尼力的一阶微分方程基础上;将上部结构按第一振型展开,获得了含有第一振型广义位移、隔震层位移及阻尼力为未知参数的二阶方程组后,通过扩阶将原二阶方程组精确化为一阶状态方程组,运用复模态法,获得了结构位移、速度及阻尼器响应的解析解,在平稳白噪声随机激励作用下,结构及阻尼器的响应方差解析解,并给出一般性算例;最终建立了基于扩阶复模态法分析多层基础隔震结构附加粘弹性阻尼器的平稳地震响应的一整套计算方法。算例结果表明:设置粘弹性阻尼器的隔震结构比一般结构的抗震效果优越很多。
為設置粘彈性阻尼器的多層基礎隔震結構平穩地震響應分析的擴階複模態法。在建立瞭結構上、下部的運動方程以及阻尼器阻尼力的一階微分方程基礎上;將上部結構按第一振型展開,穫得瞭含有第一振型廣義位移、隔震層位移及阻尼力為未知參數的二階方程組後,通過擴階將原二階方程組精確化為一階狀態方程組,運用複模態法,穫得瞭結構位移、速度及阻尼器響應的解析解,在平穩白譟聲隨機激勵作用下,結構及阻尼器的響應方差解析解,併給齣一般性算例;最終建立瞭基于擴階複模態法分析多層基礎隔震結構附加粘彈性阻尼器的平穩地震響應的一整套計算方法。算例結果錶明:設置粘彈性阻尼器的隔震結構比一般結構的抗震效果優越很多。
위설치점탄성조니기적다층기출격진결구평은지진향응분석적확계복모태법。재건립료결구상、하부적운동방정이급조니기조니력적일계미분방정기출상;장상부결구안제일진형전개,획득료함유제일진형엄의위이、격진층위이급조니력위미지삼수적이계방정조후,통과확계장원이계방정조정학화위일계상태방정조,운용복모태법,획득료결구위이、속도급조니기향응적해석해,재평은백조성수궤격려작용하,결구급조니기적향응방차해석해,병급출일반성산례;최종건립료기우확계복모태법분석다층기출격진결구부가점탄성조니기적평은지진향응적일정투계산방법。산례결과표명:설치점탄성조니기적격진결구비일반결구적항진효과우월흔다。
Smooth earthquake response of a multi-isolated structure setting a viscoelastic damper using the expansion complex modal method is raised systematically. Firstly, equations of motion of a upper-main part and a lower isolation layer of this structure, and a first-order differential equation of a damper's damping force are established. Secondly, a upper-main part is expanded according to the first mode, second-order equations containing those parameters which are the first-mode generalized displacement, isolation layer-displacement and damping force are obtained. Original second-order equations are exactly converted into a first-order equation of state by expanding order, and using the complex mode method, then analytical solutions of displacement response, velocity response and damper response of this structure are obtained, in the stationary white noise as a seismic excitation model, response variance's analytical solutions of structure and damper are obtained, and a general example is given. Finally, a set of calculation methods of smooth earthquake response of a multi-isolated structure setting a viscoelastic damper based on the expansion complex modal method is established. Numerical results show that isolated structure setting viscoelastic dampers is superior to the general structure in seismic effects.