Mechanical damping using adhesive micro or nano powders

A particle dynamics simulation model is developed and used to design a mechanical damping device that uses micro or nano powders as the damping medium. A damping device based on a powder has the advantage over the traditional use of a viscous fluid of temperature insensitive operation. Adhesion forces significantly affect the behavior of small particles. The damping mechanism targeted stems from energy dissipated due to the breaking of many adhesive particle contacts. Adhesive contacts can dissipate energy due to hysteresis in the force between particle loading and unloading. In this work adhesion hysteresis is added to the JKR model of adhesive contact and then used in particle dynamics simulations. The effects of adhesive properties and packing densities are studied in two device geometries (shear and piston) using simulation.

Graphical abstractThe use of particles as a umping fluid is attractive because there is less senstivity to changes in temperature. Paticle dynamics simulations were used to test several geometries (shear and piston) for a particle damping device. The damping mechanism stems from the breaking of adhesive particle contacts.Figure optionsDownload full-size imageDownload as PowerPoint slide