Microstructural Origin of Propagating Compaction Patterns in Porous Media
Lars Blatny, Paul Berclaz, François Guillard, Itai Einav, Johan Gaume
Abstract
Porous rocks, foams, cereals, and snow display a diverse set of common compaction patterns, including propagating or stationary bands. Although this commonality across distinct media has been widely noted, the patterns' origin remains debated-current models employ empirical laws for material-specific processes. Here, using a generic model of inelastic structured porous geometries, we show that the previously observed patterns can be attributed to a universal process of pore collapse. Furthermore, the pattern diversity can be mapped in a phase space of only two dimensionless numbers describing material strength and loading rate.
Topics & Concepts
Porous mediumDimensionless quantityCompactionPorosityMaterials scienceMechanicsSpace (punctuation)Statistical physicsPhysicsComposite materialComputer scienceOperating systemLandslides and related hazardsGranular flow and fluidized bedsRock Mechanics and Modeling