Second-order fluid
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A second-order fluid is a fluid where the stress tensor is the sum of all tensors that can be formed from the velocity field with up to two derivatives, much as a Newtonian fluid is formed from derivatives up to first order. This model may be obtained from a retarded motion expansion[1] truncated at the second-order. For an isotropic, incompressible second-order fluid, the total stress tensor is given by
where
- is the indeterminate spherical stress due to the constraint of incompressibility,
- is the -th Rivlin–Ericksen tensor,
- is the zero-shear viscosity,
- and are constants related to the zero shear normal stress coefficients.
References
[edit]- ^ Rivlin, R. S. & Ericksen, J. L (1955). "Stress-deformation relations for isotropic materials". J. Ration. Mech. Anal. Vol. 4. Hoboken. pp. 523–532.
- Bird, RB., Armstrong, RC., Hassager, O., Dynamics of Polymeric Liquids: Second Edition, Volume 1: Fluid Mechanics. John Wiley and Sons 1987 ISBN 047180245X(v.1)
- Bird R.B, Stewart W.E, Light Foot E.N.: Transport phenomena, John Wiley and Sons, Inc. New York, U.S.A., 1960