Theoretical Analysis and Experimental Verification of Particle Damper-Based Energy Dissipation with Applications to Reduce Structural Vibration

Abstract EN

Particle damping technology can greatly reduce vibration of equipment and structure through friction and inelastic collisions of particles.

An energy dissipation model for particle damper has been presented based on the powder mechanics and the collision theory.

The energy dissipation equations of friction and collision motion are developed for the particle damper.

The rationality of energy dissipation model has been verified by the experiment and the distributions for the energy dissipation of particles versus acceleration are nonlinear.

As the experiment process includes lots of factors of energy dissipation, such as the noise and the air resistance, the experimental value is about 7% more than the simulation value.

The simulation model can provide an effective method for the design of particle damper.

And the particle parameters for damper have been investigated.

The results have shown that choosing an appropriate particle density, particle size, and particle filling rate determined based on the simulation model will provide the optimal damping effect for the practical application of particle damping technology.