Nonlinear Force Propagation during Granular Impact
Abstract
We experimentally study nonlinear force propagation into granular material during impact from an intruder, and we explain our observations in terms of the nonlinear grain-scale force relation. Using high-speed video and photoelastic particles, we determine the speed and spatial structure of the force response just after impact. We show that these quantities depend on a dimensionless parameter, , where is the intruder speed at impact, is the particle diameter, and is the collision time for a pair of grains impacting at relative speed . The experiments access a large range of by using particles of three different materials. When , force propagation is chain-like with a speed, , satisfying . For larger , the force response becomes spatially dense and the force propagation speed departs from , corresponding to collective stiffening of a strongly compressed packing of grains.
Keywords
Cite
@article{arxiv.1408.1971,
title = {Nonlinear Force Propagation during Granular Impact},
author = {Abram H. Clark and Alec J. Petersen and Lou Kondic and R. P. Behringer},
journal= {arXiv preprint arXiv:1408.1971},
year = {2015}
}
Comments
3 figures, 5 pages