Packings of frictionless spherocylinders

Abstract

We present simulation results on the properties of packings of frictionless spherocylindrical particles. Starting from a random distribution of particles in space, a packing is produced by minimizing the potential energy of inter-particle contacts until a force-equilibrated state is reached. For different particle aspect ratios α=10… 40, we calculate contacts z, pressure as well as bulk and shear modulus. Most important is the fraction f0 of spherocylinders with contacts at both ends as it governs the jamming threshold zc(f0)=8+2f0. These results highlight the important role of the axial "sliding" degree of freedom of a spherocylinder, which is a zero-energy mode but only if no end-contacts are present.