双向耦合地震作用下滑移隔震结构振动控制及其优化研究
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摘要
目前,滑移隔震结构的分析通常只考虑水平地震动而不考虑竖向地震动的影响,有关多向地震动及其相关性的研究也很少。水平与竖向地面运动具有相关性,从而影响控制效果,因此对双向耦合地震作用下滑移隔震结构模型的理论进行研究,建立动力分析模型并得出运动微分方程。以6层滑移隔震结构为例,对其进行地震反应分析。研究表明,在考虑竖向地震作用的情况下,滑移隔震结构也具有良好的控制作用,但是竖向地震作用的存在使结构的地震反应有不同程度的增加,其增量随着竖向地震作用的增加而增加。因此,在高烈度地区的滑移隔震结构应该考虑竖向地震作用对结构的影响。建立滑移隔震装置的参数优化设计模型,采用IHGA程序对结构的重要参数进行优化设计。结果表明,滑移隔震结构在各种工况下的各项地震反应均得到更好的控制。
Only the action of horizontal earthquake was considered generally when the sliding base-isolated structure was analyzed currently.Few researches were done about correlation of motions in horizontal and vertical directions.Therefore,theory of sliding base-isolated structure under bidirectional coupling earthquake is studied.The theory of the model for sliding base-isolated structure under bidirectional coupling earthquake is studied.The dynamic analysis model is set up,and the kinetic differential function is presented accordingly,and the dynamic time history analysis is made.Taking 6-story sliding base-isolated structure as an example,the results show that the sliding base-isolated structure has also a good control effect when the action of earthquake in vertical direction is considered.However,the seismic responses of sliding base-isolated structure increase in some degree under the action of earthquake in vertical direction.Therefore,it is highly recommended that the influence of vertical earthquake action on such structures shoulde be taken into account in high-intensity earthquake regions.The optimal model for sliding base-isolated structure is set up.The various earthquake responses of sliding base-isolated structure under various loading conditions get better control after it is optimized with IHGA.
Only the action of horizontal earthquake was considered generally when the sliding base-isolated structure was analyzed currently.Few researches were done about correlation of motions in horizontal and vertical directions.Therefore,theory of sliding base-isolated structure under bidirectional coupling earthquake is studied.The theory of the model for sliding base-isolated structure under bidirectional coupling earthquake is studied.The dynamic analysis model is set up,and the kinetic differential function is presented accordingly,and the dynamic time history analysis is made.Taking 6-story sliding base-isolated structure as an example,the results show that the sliding base-isolated structure has also a good control effect when the action of earthquake in vertical direction is considered.However,the seismic responses of sliding base-isolated structure increase in some degree under the action of earthquake in vertical direction.Therefore,it is highly recommended that the influence of vertical earthquake action on such structures shoulde be taken into account in high-intensity earthquake regions.The optimal model for sliding base-isolated structure is set up.The various earthquake responses of sliding base-isolated structure under various loading conditions get better control after it is optimized with IHGA.
引文
[1]张延年,刘剑平,刘斌.多向地震耦合作用下MR阻尼结构的地震反应分析[J].东北大学学报(自然科学版),2005,26(9):897-900.
[2]Westermo B,Udwadia F.Periodic response of sliding oscillator system to harmonic excitation[J].Earthquake Engineering&Structural Dynam-ics,1983,11(1):135-146.
[3]Masashi Iura,Kunihito Matsui.Analytical expressions for three different modes in harmonic motion of sliding structures[J].Earthquake Engi-neering&Structural dynamics,1992,21(9):757-769.
[4]杨志勇,刘福义,范么清.摩擦隔震结构中不同摩擦力模型在地震作用下结构响应分析[J].地震工程与工程振动,2003,23(4):139-143.
[5]张延年,刘剑平,李艺.双向耦合地震作用下的MRD与滑移隔震混合控制结构[J].沈阳建筑大学学报,2006,22(1):1-5.
[6]付伟庆,王焕定,张永山.变刚度滞变耗能与隔震联合控制框架结构实验研究[J].世界地震工程,2002,18(4):73-78.
[7]Masashi Iura,Kunihito Matsui.Analytical expressions for three different modes in harmonic motion of sliding structures[J].Earthquake Engi-neering and Structural Dynamics,1992,21(9):757-769.
[8]樊剑,唐家祥.基于指数摩擦力模型滑移隔震结构的动力特性[J].振动与冲击,2000,19(3):30-33.
[9]张延年,刘斌,李艺.MR阻尼器与LRB相混合的结构振动控制[J].东北大学学报(自然科学版),2006,27(1):95-98.
[10]张延年,刘斌,朱朝艳.工程结构优化设计的改进混合遗传算法[J].吉林大学学报(工学版),2005,35(1):65-69.
[11]张延年,刘斌,李艺.建筑结构优化设计的改进进退遗传算法[J].哈尔滨工业大学学报,2006,38(3):410-413.
[12]张延年,刘斌,郭鹏飞.混合遗传算法在工程结构优化设计中的应用[J].工业建筑,2005,35(3):23-26.
[13]张延年,刘斌,董锦坤.改进遗传算法在建筑结构优化设计中的应用[J].东北大学学报(自然科学版),2004,25(7):692-694.
[14]张延年,刘斌,郭鹏飞..基于混合遗传算法的建筑结构优化设计[J].东北大学学报(自然科学版),2003,24(10):990-993.
[2]Westermo B,Udwadia F.Periodic response of sliding oscillator system to harmonic excitation[J].Earthquake Engineering&Structural Dynam-ics,1983,11(1):135-146.
[3]Masashi Iura,Kunihito Matsui.Analytical expressions for three different modes in harmonic motion of sliding structures[J].Earthquake Engi-neering&Structural dynamics,1992,21(9):757-769.
[4]杨志勇,刘福义,范么清.摩擦隔震结构中不同摩擦力模型在地震作用下结构响应分析[J].地震工程与工程振动,2003,23(4):139-143.
[5]张延年,刘剑平,李艺.双向耦合地震作用下的MRD与滑移隔震混合控制结构[J].沈阳建筑大学学报,2006,22(1):1-5.
[6]付伟庆,王焕定,张永山.变刚度滞变耗能与隔震联合控制框架结构实验研究[J].世界地震工程,2002,18(4):73-78.
[7]Masashi Iura,Kunihito Matsui.Analytical expressions for three different modes in harmonic motion of sliding structures[J].Earthquake Engi-neering and Structural Dynamics,1992,21(9):757-769.
[8]樊剑,唐家祥.基于指数摩擦力模型滑移隔震结构的动力特性[J].振动与冲击,2000,19(3):30-33.
[9]张延年,刘斌,李艺.MR阻尼器与LRB相混合的结构振动控制[J].东北大学学报(自然科学版),2006,27(1):95-98.
[10]张延年,刘斌,朱朝艳.工程结构优化设计的改进混合遗传算法[J].吉林大学学报(工学版),2005,35(1):65-69.
[11]张延年,刘斌,李艺.建筑结构优化设计的改进进退遗传算法[J].哈尔滨工业大学学报,2006,38(3):410-413.
[12]张延年,刘斌,郭鹏飞.混合遗传算法在工程结构优化设计中的应用[J].工业建筑,2005,35(3):23-26.
[13]张延年,刘斌,董锦坤.改进遗传算法在建筑结构优化设计中的应用[J].东北大学学报(自然科学版),2004,25(7):692-694.
[14]张延年,刘斌,郭鹏飞..基于混合遗传算法的建筑结构优化设计[J].东北大学学报(自然科学版),2003,24(10):990-993.
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