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Clutching inerters enhanced tuned mass dampers for structural response mitigation under impulsive and seismic excitations

Jingjing Wang, Chao Zhang, Zhibin Liu

2021Structural Control and Health Monitoring24 citationsDOI

Abstract

Inerters, a type of two-terminal inertial elements, have significantly enhanced the performance of conventional control devices. The clutching inerters are especially appealing since they take energy away from the structural system without transferring back. In this study, a clutching inerter enhanced tuned mass damper (TMDCI) is proposed. First, the formation of the TMDCI is described based on a tuned mass damper inerter and two clutching flywheels. Then, the equations of motion are derived for the TMDCI on a single-degree-of-freedom (SDOF) primary structure. Subsequently, the modal properties of the TMDCI system are revealed by examining the steady-state responses under harmonic ground excitations. Afterward, performance analyses are conducted for the TMDCI on SDOF and three-DOF steel structures when subjected to initial velocities. The frequency robustness and parametric sensitivity of the TMDCI are evaluated on the SDOF structure, whereas practical concerns regarding the hosting location and stiffness demand of the TMDCI are addressed on the three-DOF structure. Finally, the seismic performance of the TMDCI is investigated on the three-DOF structure under a suite of earthquakes. The results show that the TMDCI exhibits a large damping effect which can reduce responses in both the structure and device and maintain strong robustness against frequency uncertainties. This study demonstrates the great potential of TMDCIs as an effective and affordable control strategy for the seismic protection of structures.

Topics & Concepts

Tuned mass damperRobustness (evolution)Structural engineeringModalEngineeringDamperParametric statisticsControl theory (sociology)StiffnessShakerFlywheelInertial frame of referenceComputer scienceVibrationPhysicsControl (management)AcousticsAutomotive engineeringMathematicsGenePolymer chemistryArtificial intelligenceQuantum mechanicsChemistryBiochemistryStatisticsVibration Control and Rheological FluidsSeismic Performance and AnalysisStructural Engineering and Vibration Analysis
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