Memory in Nonmonotonic Stress Relaxation of a Granular System
Kieran A. Murphy, Jonathon Kruppe, Heinrich M. Jaeger
Abstract
We demonstrate experimentally that a granular packing of glass spheres is capable of storing memory of multiple strain states in the dynamic process of stress relaxation. Modeling the system as a noninteracting population of relaxing elements, we find that the functional form of the predicted relaxation requires a quantitative correction which grows in severity with each additional memory and is suggestive of interactions between elements. Our findings have implications for the broad class of soft matter systems that display memory and anomalous relaxation.
Topics & Concepts
Relaxation (psychology)Stress relaxationStatistical physicsStress (linguistics)Granular matterMaterials sciencePopulationSoft matterCondensed matter physicsHard spheresGranular materialBiological systemPhysicsThermodynamicsNeuroscienceChemistryPhysical chemistryComposite materialDemographyCreepPhilosophyBiologySociologyLinguisticsColloidMaterial Dynamics and PropertiesGeology and Paleoclimatology Research