Isostaticity of Constraints in Jammed Systems of Soft Frictionless Platonic Solids

Abstract

The average number of constraints per particle < Ctotal > in mechanically stable systems of Platonic solids (except cubes) approaches the isostatic limit at the jamming point (< Ctotal > → 12), though average number of contacts are hypostatic. By introducing angular alignment metrics to classify the degree of constraint imposed by each contact, constraints are shown to arise as a direct result of local orientational order reflected in edge-face and face-face alignment angle distributions. With approximately one face-face contact per particle at jamming chain-like face-face clusters with finite extent form in these systems.