Damping behaviors of granular particles in a vertically vibrated closed container

CorinneB_21985
CorinneB_21985 New Altair Community Member
edited November 2021 in Altair HyperWorks

AUTHOR(S)

K. Zhang, L. He, T. Chen

PUBLISHER

Elsevier

SOURCE

Powder Technology

YEAR

ABSTRACT

Damping behaviors of granular particles in a quasi-two-dimensional (QTD) closed container subjected to vertical vibration are simulated by means of Discrete Element Method (DEM). Phase diagram and damping contour of vibrated granular particles in the amplitude-frequency plane of external excitation are obtained, which indicates six different damping phases of vibrated granular particles.Simulation results also reveal that three suspended phases of vibrated granular particles (i.e., Leidenfrost effect, Buoyancy convection and Bidirectional Leidenfrost effect) display the higher damping capacity, and especially granular Leidenfrost effect demonstrates the optimal damping effect.Furthermore, the dissipation characteristic of granular Leidenfrost effect is analyzed respectively from the perspective of energy transformation and energy dissipation. The influence of the corresponding parameters (gap clearance, particle diameter and container dimension) on the three high damping suspended phases (HDSPs) of vibrated granular particles is explored.Finally, base on the rheological behavior of vibrated granular particles, a visualization method for regulating the granular damping effect by DEM simulation is proposed for the first time, which may provide a new idea for designing the optimal granular dampers.

KEYWORDS

granular damping, high damping suspended phases, leidenfrost effect, optimal damping design