Litcius/Paper detail

Damping Performance Analysis of the Damped Outrigger System Based on H∞

Liangkun Liu, Xiangxiu Li, Ping Tan, Zhaodong Pan, Shangrong Zhang

2022International Journal of Structural Stability and Dynamics13 citationsDOI

Abstract

A cantilever beam with multiple rotation spring-dampers was utilized to simulate the damped outrigger system. Two new methods, namely, the “Maxwell dampers type method” and the “virtual small mass method,” were proposed to present the simplified seismic response analysis of the damped outrigger system. Corresponding dynamic characteristic equations based on the proposed methods were also given. Subsequently, [Formula: see text] performance index was employed to obtain the optimal damper parameters. The numerical analysis shows that the proposed methods agree well with the finite-element method and have relatively accurate results. Stiffness ratios of the perimeter columns have a significant effect on the pseudo frequencies and system damping ratios. Lower stiffness ratios of the perimeter columns commonly lead to higher pseudo frequencies and system damping ratios. Furthermore, the damped outrigger system has excellent seismic mitigation performance when applied with appropriate damping parameters based on [Formula: see text].

Topics & Concepts

OutriggerCantileverDamperStructural engineeringStiffnessFinite element methodDamping ratioBeam (structure)MathematicsEngineeringPhysicsVibrationAcousticsSeismic and Structural Analysis of Tall BuildingsSeismic Performance and Analysis