Nihon Kikai Gakkai ronbunshu (Sep 2018)

Damping effect of multi-directional resiliently supported mass for railway vehicle carbodies (Excitation tests and FEM analysis for a scale model using a concept model)

  • Yasunobu MAKITA,
  • Yuki AKIYAMA,
  • Tadao TAKIGAMI,
  • Takahiro TOMIOKA

DOI
https://doi.org/10.1299/transjsme.18-00112
Journal volume & issue
Vol. 84, no. 866
pp. 18-00112 – 18-00112

Abstract

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It has been shown that passengers have large reduction effect on the elastic vibration of a railway vehicle car body. That effect is considered due to the viscoelastic motion and multi-directional motion of a human body. This study focuses on the latter one and aims to develop a new vibration reduction device to mimic the multi-directional motion of passengers. In this paper, an experimented multi-directional dynamic vibration absorber (called MDDVA in this report) is developed. The MDDVA consists of a steel ball supported resiliently by elastic balls bottled in a rigid cylindrical vessel. The steel ball can vibrate multi-directionally in the vessel and is expected to work as a MDDVA. In addition, the natural frequency of the MDDVA can be changed by pressing the elastic balls from the top. To evaluate the effectiveness of the MDDVA, excitation tests by means of a scale model of a railway vehicle is conducted. As a result, the MDDVA can reduce the elastic vibration by adjusting the natural frequency of MDDVA to that of the scale model, and multi-modal vibration reduction effect is successfully observed. And then, FEM models of the MDDVA and a scale model of the railway vehicle are constructed to verify the mechanism of the multi-modal vibration reduction. As a result of the FEM analysis, it is confirmed that the multi-directional motion of the steel ball produces the multi-modal vibration reduction effect.

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