English

Nonlinear Force Propagation during Granular Impact

Soft Condensed Matter 2015-04-21 v2

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, M=tcv0/dM'=t_c v_0/d, where v0v_0 is the intruder speed at impact, dd is the particle diameter, and tct_c is the collision time for a pair of grains impacting at relative speed v0v_0. The experiments access a large range of MM' by using particles of three different materials. When M1M' \ll 1, force propagation is chain-like with a speed, vfv_f, satisfying vfd/tcv_f \propto d/t_c. For larger MM', the force response becomes spatially dense and the force propagation speed departs from vfd/tcv_f\propto d/t_c, 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

R2 v1 2026-06-22T05:23:40.297Z