Coherent Force Chains in Disordered Granular Materials Emerge from a Percolation of Quasilinear Clusters
K. Krishnaraj, Prabhu R. Nott
Abstract
Dense granular materials and other particle aggregates transmit stress in a manner that belies their microstructural disorder. A subset of the particle contact network is strikingly coherent, wherein contacts are aligned nearly linearly and transmit large forces. Important material properties are associated with these force chains, but their origin has remained a puzzle. We classify subnetworks by their linear connectivity, and show the emergence of a percolation transition at a critical linearity at which the network is sparse, coherent, and contains the force chains. The subnetwork at critical linearity closely reflects the macroscopic stress and explains distinctive features of granular mechanics.
Topics & Concepts
Percolation (cognitive psychology)Granular materialSubnetworkLinearityStatistical physicsParticle (ecology)Percolation thresholdPhysicsCondensed matter physicsMaterials scienceComputer scienceGeologyQuantum mechanicsElectrical resistivity and conductivityBiologyOceanographyNeuroscienceComputer securityGranular flow and fluidized bedsMaterial Dynamics and PropertiesLandslides and related hazards