An enhanced base isolation system equipped with optimal tuned mass damper inerter (TMDI)

基础隔离 调谐质量阻尼器 结构工程 工程类 阻尼器 基础(拓扑) 隔振 振动 流离失所(心理学) 控制理论(社会学) 振动控制 加速度 数学 计算机科学 声学 机械工程 数学分析 物理 帧(网络) 心理学 人工智能 经典力学 心理治疗师 控制(管理)
作者
Dario De Domenico,Giuseppe Ricciardi
出处
期刊:Earthquake Engineering & Structural Dynamics [Wiley]
卷期号:47 (5): 1169-1192 被引量:404
标识
DOI:10.1002/eqe.3011
摘要

Summary In seismic base isolation, most of the earthquake‐induced displacement demand is concentrated at the isolation level, thereby the base‐isolation system undergoes large displacements. In an attempt to reduce such displacement demand, this paper proposes an enhanced base‐isolation system incorporating the inerter, a 2‐terminal flywheel device whose generated force is proportional to the relative acceleration between its terminals. The inerter acts as an additional, apparent mass that can be even 200 times higher than its physical mass. When the inerter is installed in series with spring and damper elements, a lower‐mass and more effective alternative to the traditional tuned mass damper (TMD) is obtained, ie, the TMD inerter (TMDI), wherein the device inertance plays the role of the TMD mass. By attaching a TMDI to the isolation floor, it is demonstrated that the displacement demand of base‐isolated structures can be significantly reduced. Due to the stochastic nature of earthquake ground motions, optimal parameters of the TMDI are found based on a probabilistic framework. Different optimization procedures are scrutinized. The effectiveness of the optimal TMDI parameters is assessed via time history analyses of base‐isolated multistory buildings under several earthquake excitations; a sensitivity analysis is also performed. The enhanced base‐isolation system equipped with optimal TMDI attains an excellent level of vibration reduction as compared to the conventional base‐isolation scheme, in terms not only of displacement demand of the base‐isolation system but also of response of the isolated superstructure (eg, base shear and interstory drifts); moreover, the proposed vibration control strategy does not imply excessive stroke of the TMDI.
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