μ(I) rheology

In granular mechanics, the μ(I) rheology is one model of the rheology of a granular flow.

Details

The inertial number of a granular flow is a dimensionless quantity defined as

${\displaystyle I={\frac {||{\dot {\gamma }}||d}{\sqrt {P/\rho }}},}$

where ${\displaystyle {\dot {\gamma }}}$ is the shear rate tensor, ${\displaystyle ||{\dot {\gamma }}||}$ is its magnitude, d is the average particle diameter, P is the pressure and ρ is the density. It is a local quantity and may take different values at different locations in the flow.

The μ(I) rheology asserts a constitutive relationship between the stress tensor of the flow and the rate of strain tensor:

${\displaystyle \sigma _{ij}=-p\delta _{ij}+\mu (I)p{\frac {{\dot {\gamma }}_{ij}}{||{\dot {\gamma }}_{ij}||}}}$

where the eponymous μ(I) is a dimensionless function of I. As with Newtonian fluids, the first term -pδ_ij represents the effect of pressure. The second term represents a shear stress: it acts in the direction of the shear, and its magnitude is equal to the pressure multiplied by a coefficient of friction μ(I). This is therefore a generalisation of the standard Coulomb friction model.

One deficiency of the μ(I) rheology is that it does not capture the hysteretic properties of a granular material.^[1]

Development

The μ(I) rheology was developed by Jop et al. in 2006.^[2][3]

References

1. Forterre, Yoël; Pouliquen, Olivier (January 2008). "Flows of Dense Granular Media". Annual Review of Fluid Mechanics. 40 (1): 1–24. Bibcode:2008AnRFM..40....1F. doi:10.1146/annurev.fluid.40.111406.102142.
2. Holyoake, Alex (December 2011). Rapid Granular Flows in an Inclined Chute (PDF). Retrieved 21 July 2015.
3. Jop, Pierre; Forterre, Yoël; Pouliquen, Olivier (8 June 2006). "A constitutive law for dense granular flows". Nature. 441 (7094): 727–730. arXiv:cond-mat/0612110. Bibcode:2006Natur.441..727J. doi:10.1038/nature04801.