One-dimensional viscoelastic fluid model where viscosity and normal stress coeffients depend on the shear rate
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F. Carapau, "One-dimensional viscoelastic fluid model where viscosity and normal stress coeffients depend on the shear rate",Nonlinear Analysis:Real World Applications, Volume 11, Issue 5, pp. 4342-4354, 2010.
Abstract
Westudy the unsteady motion of a viscoelastic fluid modeled by a second-order fluid where
normal stress coefficients and viscosity depend on the shear rate by using a power-law
model. To study this problem, we use the one-dimensional nine-director Cosserat theory
approach which reduces the exact three-dimensional equations to a system depending
only on time and on a single spatial variable. Integrating the equation of conservation of
linear momentum over the tube cross-section, with the velocity field approximated by the
Cosserat theory, we obtain a one-dimensional system. The velocity field approximation
satisfies both the incompressibility condition and the kinematic boundary condition
exactly. From this one-dimensional system we obtain the relationship between average
pressure and volume flow rate over a finite section of the tube with constant and variable
radius. Also, we obtain the correspondent equation for the wall shear stress which enters
directly in the formulation as a dependent variable. Attention is focused on some numerical
simulation of unsteady/steady flows for average pressure, wall shear stress and on the
analysis of perturbed flows.