核电厂高静低动三维隔震系统的力学性能试验与减震效果研究Mechanical Performance Test and Shock Absorption Effect of High Static and Low Dynamic 3D Isolation System in Nuclear Power Plant
杨杰,王凯,田华,孙渝刚,袁芳,陈哲贤
摘要(Abstract):
为实现隔震结构在静载阶段隔震层位移较小的同时满足动载阶段良好的减震效果,设计了一种由水平隔震单元和高静低动隔震系统(斜置橡胶支座和负刚度装置构成)组成的高静低动三维隔震系统。针对核电厂结构建立了该系统的竖向动力模型,分析了参数对系统传递率的影响,结果表明随着刚度比、阻尼比和力激励幅值比的增大,弹簧压缩比减小,力传递率幅值越小,在共振区体现出更好的隔震效果。通过对高静低动隔震系统进行静力加载试验,结果表明高静低动隔震系统在动载阶段滞回曲线饱满,具有较低刚度特征。通过理论模型与试验结果的对比,表明所提出的高静低动隔震系统理论模型能较好反映该装置系统力学特性。
关键词(KeyWords): 负刚度;高静低动三维隔震系统;传递率;参数分析;地震响应
基金项目(Foundation): 国家自然科学基金(52078287)
作者(Author): 杨杰,王凯,田华,孙渝刚,袁芳,陈哲贤
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