Performance of a New Fine Particle Impact Damper

الملخص EN

The energy dissipation mechanisms of conventional impact damper (CID) are mainly momentum exchange and friction.

During the impact process, a lot of vibration energy cannot be exhausted but reverberated among the vibration partners.

Besides, the CID may produce the additional vibration to the system or even amplify the response in the low-frequency vibration.

To overcome these shortcomings, this paper proposes a new fine particle impact damper (FPID) which for the first time introduces the fine particle plastic deformation as an irreversible energy sink.

Then, the experiments of the cantilevered beam with the CID and that with the FPID are, respectively, carried out to investigate the behavior of FPID.

The experimental results indicate that the FPID has a better performance in vibration damping than in the CID and the FPID works well in control of the vibration with frequency lower than 50 Hz, which is absent to the non-obstructive particle damper.

Thus, the FPID has a bright and significant application future because most of the mechanical vibration falls in the range of low freqency.