Movers and shakers: Granular damping in microgravity

TL;DR

This paper investigates the behavior of granular dampers in microgravity through experiments and simulations, revealing a frictional damping mechanism and providing a predictive model for optimal damping conditions.

Contribution

It introduces a granular damper model in microgravity, demonstrating a linear decay behavior and developing a simple expression for optimal damping that is frequency and inelasticity independent.

Findings

Granular dampers behave like frictional dampers in microgravity.

Amplitude decays linearly during damping.

A predictive expression for optimal damping conditions is proposed.

Abstract

The response of an oscillating granular damper to an initial perturbation is studied using experiments performed in microgravity and granular dynamics mulations. High-speed video and image processing techniques are used to extract experimental data. An inelastic hard sphere model is developed to perform simulations and the results are in excellent agreement with the experiments. The granular damper behaves like a frictional damper and a linear decay of the amplitude is bserved. This is true even for the simulation model, where friction forces are absent. A simple expression is developed which predicts the optimal damping conditions for a given amplitude and is independent of the oscillation frequency and particle inelasticities.