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==Abstract==
  
 +
Tuned mass dampers, consisting of a mass, spring, and damper, are widely used for
 +
vibration suppression in structures. Despite being small and lightweight, these dampers exhibit
 +
excellent damping effectiveness. However, there are issues such as performance degradation
 +
due to the aging of the spring and damper, as well as the need for frequent maintenance.
 +
Therefore, as an alternative vibration control device that does not rely on these components, a
 +
rolling-ball damper is proposed. This damper consists of a container with a lid and multiple
 +
enclosed particles on its curved surface. By utilizing the contact between particles and the
 +
friction between particles and the container, the rolling-ball damper can absorb and suppress
 +
the vibration energy imposed on the structure to which the container is attached. In this study,
 +
we investigated the characteristics of the rolling-ball damper in a horizontal vibration system.
 +
We experimentally verified the effects of the size and number of enclosed particles on damping
 +
performance. Furthermore, numerical simulations were conducted by the discrete element
 +
method using EDEM® software and the multibody dynamics simulation method using
 +
MotionSolve® software. A comparison between experimental and numerical simulation results
 +
demonstrated the effectiveness of numerical calculations in predicting the amplitude response

Revision as of 13:37, 23 November 2023

Abstract

Tuned mass dampers, consisting of a mass, spring, and damper, are widely used for vibration suppression in structures. Despite being small and lightweight, these dampers exhibit excellent damping effectiveness. However, there are issues such as performance degradation due to the aging of the spring and damper, as well as the need for frequent maintenance. Therefore, as an alternative vibration control device that does not rely on these components, a rolling-ball damper is proposed. This damper consists of a container with a lid and multiple enclosed particles on its curved surface. By utilizing the contact between particles and the friction between particles and the container, the rolling-ball damper can absorb and suppress the vibration energy imposed on the structure to which the container is attached. In this study, we investigated the characteristics of the rolling-ball damper in a horizontal vibration system. We experimentally verified the effects of the size and number of enclosed particles on damping performance. Furthermore, numerical simulations were conducted by the discrete element method using EDEM® software and the multibody dynamics simulation method using MotionSolve® software. A comparison between experimental and numerical simulation results demonstrated the effectiveness of numerical calculations in predicting the amplitude response

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Document information

Published on 23/11/23
Submitted on 23/11/23

Volume Discrete and Particle Methods in Solid and Structural Mechanics, 2023
DOI: 10.23967/c.particles.2023.014
Licence: CC BY-NC-SA license

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