Design and simulation of double-mass dynamic vibration absorber with residual vibration mode

This paper presents a double-mass dynamic vibration absorber (DVA) that rapidly reduces the motion of the object to be damped (main system) and converts it to the motion of the DVA. In this way, the DVA attenuates the vibration of the main system. A DVA is usually designed to improve the resonance a...

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Bibliographic Details
Published in:Journal of mechanical science and technology 2023, 37(6), , pp.2771-2779
Main Authors: Miura, Nanako, Matsuo, Naoki, Fukada, Saiji, Tomioka, Sawako
Format: Article
Language:English
Subjects:
Absorbers
Control
Damping
Dynamical Systems
Engineering
Genetic algorithms
Industrial and Production Engineering
Kinetic energy
Mechanical Engineering
Original Article
Vibration
Vibration mode
기계공학
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Summary:This paper presents a double-mass dynamic vibration absorber (DVA) that rapidly reduces the motion of the object to be damped (main system) and converts it to the motion of the DVA. In this way, the DVA attenuates the vibration of the main system. A DVA is usually designed to improve the resonance amplitude and convergence time of the main system vibration, and the kinetic energy of the main system is dissipated as heat in the damping element of the DVA. We describe a novel configuration consisting of two DVAs connected by a spring and an inerter. This new structure enables a rapid response reduction of the main system and residual vibration in the DVA. By tuning the responses of both the main system and the DVA, two vibration modes can be realized: a damping mode and a residual vibration mode. The proposed device is optimized using a genetic algorithm and applied to a bridge to demonstrate its performance.
ISSN:1738-494X
1976-3824
DOI:10.1007/s12206-023-0505-7