Granular solid hydrodynamics
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A complete continuum mechanical theory for granular media, including explicit expressions for the energy current and the entropy production, is derived and explained in this paper, where the authors refer to the theory as GSH.Abstract:
A complete continuum mechanical theory for granular media, including explicit expressions for the energy current and the entropy production, is derived and explained. Its underlying notion is: granular media are elastic when at rest, but turn transiently elastic when the grains are agitated—such as by tapping or shearing. The theory includes the true temperature as a variable, and employs in addition a granular temperature to quantify the extent of agitation. A free energy expression is provided that contains the full jamming phase diagram, in the space spanned by pressure, shear stress, density and granular temperature. We refer to the theory as GSH, for granular solid hydrodynamics. In the static limit, it reduces to granular elasticity, shown previously to yield realistic static stress distributions. For steady-state deformations, it is equivalent to hypoplasticity, a state-of-the-art engineering model.read more
Citations
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Coarse-grained local and objective continuum description of three-dimensional granular flows down an inclined surface
TL;DR: In this article, a coarse-grained model for steady-state granular flows was proposed, where the macroscopic fields involved density, velocity, granular temperature, as well as strain-rate, stress, and fabric structure tensors.
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Coupled thermo-hydro-mechanical mechanism in view of the soil particle rearrangement of granular thermodynamics
TL;DR: In this article, a coupled thermo-hydro-mechanical mechanism was established in view of the soil particle rearrangement for saturated/unsaturated soils under the framework of granular thermodynamics.
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A thermodynamic constitutive model with temperature effect based on particle rearrangement for geomaterials
TL;DR: In this article, a thermo-hydro-mechanical constitutive model is developed for geomaterials based on the tenet of particle rearrangement in porous granular materials undergoing thermodynamic processes.
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Macroscopic model with anisotropy based on micro-macro informations,
TL;DR: In this article, the elastic response of dense, frictionless granular assemblies with the final goal to relate the elastic moduli to the fabric state, i.e., to microstructural averaged contact network features as contact number density and anisotropy.
References
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