Cross fluid

In fluid dynamics, a Cross fluid is a type of generalized Newtonian fluid whose viscosity depends upon shear rate according to the Cross Power Law equation:

${\displaystyle {\mu }_{\mathrm{e}\mathrm{f}\mathrm{f}}(\dot{\gamma })={\mu }_{\mathrm{\infty }}+\frac{{\mu }_0-{\mu }_{\mathrm{\infty }}}{1+(m\dot{\gamma }{)}^n}}$

where ${\displaystyle {\mu }_{\mathrm{e}\mathrm{f}\mathrm{f}}(\dot{\gamma })}$ is viscosity as a function of shear rate, ${\displaystyle {\mu }_{\mathrm{\infty }}}$ is the infinite-shear-rate viscosity, ${\displaystyle {\mu }_0}$ is the zero-shear-rate viscosity, ${\displaystyle m}$ is the time constant, and ${\displaystyle n}$ is the shear-thinning index.

The zero-shear viscosity ${\displaystyle {\mu }_0}$ is approached at very low shear rates, while the infinite shear viscosity ${\displaystyle {\mu }_{\mathrm{\infty }}}$ is approached at very high shear rates.^[1]

When ${\displaystyle {\mu }_0}$ > ${\displaystyle {\mu }_{\mathrm{\infty }}}$, the fluid exhibits shear thinning (pseudoplastic) behavior where viscosity decreases with increasing shear rate; when ${\displaystyle {\mu }_0}$ < ${\displaystyle {\mu }_{\mathrm{\infty }}}$, the fluid displays shear thickening (dilatant) behavior where viscosity increases with shear rate.

It is named after Malcolm M. Cross who proposed this model in 1965.^[2][3]

• Navier-Stokes equations
• Fluid
• Carreau fluid
• Power-law fluid
• Generalized Newtonian fluid

Template:Reflist

• Kennedy, P. K., Flow Analysis of Injection Molds. New York. Hanser. Template:ISBN

Template:Non-Newtonian fluids