Rheological properties in a low-density granular mixture
From MaRDI portal
Publication:1600227
DOI10.1016/S0378-4371(02)00786-0zbMath0995.76093arXivcond-mat/0201175MaRDI QIDQ1600227
José María Montanero, Vicente Garzó
Publication date: 12 June 2002
Published in: Physica A (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/cond-mat/0201175
Boltzmann equationdirect simulation Monte Carlo methodhomogeneous shear flowsteady shear flowlow-density granular mixtureSonine polynomal expansion
Related Items
Rheological properties for inelastic Maxwell mixtures under shear flow ⋮ Kinetic Theory for Binary Granular Mixtures at Low Density ⋮ Numerical studies of a granular gas in a host medium ⋮ Transport coefficients for inelastic Maxwell mixtures ⋮ Rheology of two- and three-dimensional granular mixtures under uniform shear flow: Enskog kinetic theory versus molecular dynamics simulations ⋮ Kinetic theory of granular particles immersed in a molecular gas
Cites Work
- Collisional source of the second moment and pressure tensor for inhomogeneous rapid granular flows of highly inelastic spheres
- Kinetic models for granular flow
- Kinetic theories for granular flow: inelastic particles in Couette flow and slightly inelastic particles in a general flowfield
- Kinetic theory for binary mixtures of smooth, nearly elastic spheres
- Kinetic theory of a binary mixture of nearly elastic disks
- Hydrodynamics for a granular binary mixture at low density
- Balance Laws and Constitutive Relations for Plane Flows of a Dense, Binary Mixture of Smooth, Nearly Elastic, Circular Disks
- Plane simple shear of smooth inelastic circular disks: the anisotropy of the second moment in the dilute and dense limits
- A Monte Carlo solution for rapidly shearing granular flows based on the kinetic theory of dense gases
- Transient and asymptotic stability of granular shear flow
- Kinetic theoretical study of a simply sheared two-dimensional granular gas to Burnett order
- Uniform shear flow in a binary mixture with general repulsive interactions
- Kinetic theory of simple granular shear flows of smooth hard spheres
