- Upper Convected Maxwell model
The Upper Convected Maxwell model (or UCM model) is a generalisation of the
Maxwell material for the case of large deformations using theUpper convected time derivative . The model was proposed byJ. G. Oldroyd .The model can be written as::where:
* is the stresstensor ;
* is the relaxation time;
* is theUpper convected time derivative of stress tensor::
* is the fluid velocity
* is materialviscosity at steadysimple shear ;
* is the tensor of the deformation rate.Case of the Steady Shear
For this case only two components of the shear stress became non-zero::and:where is the shear rate.
Thus, the Upper Convected Maxwell model predicts for the simple shear that
shear stress to be proportional to the shear rate and thefirst difference of normal stresses () is proportional to the square of the shear rate, thesecond difference of normal stresses () is always zero. In other words, UCM predicts appearance of the first difference of normal stresses but does not predict non-Newtonian behavior of the shear viscosity nor the second difference of the normal stresses.Usually quadratic behavior of the first difference of normal stresses and no second difference of the normal stresses is a realistic behavior of polymer melts at moderated shear rates, but constant viscosity is unrealistic and limits usability of the model.
Case of start-up of Steady Shear
For this case only two components of the shear stress became non-zero::and:
The equations above describe stresses gradually risen from zero the steady-state values.The equation is only applicable, when the velocity profile in the shear flow is fully developed. Then the shear rate is constant over the channel height. If the start-up form a zero velocity distribution has to be calculated, the full set of PDEs has to be solved.
Case of the Steady State Uniaxial Extension or Uniaxial Compression
For this case UCM predicts the normal stresses calculated by the following equation:: where is the elongation rate.
The equation predicts the elongation viscosity approaching (the same as for the
Newtonian fluid s) for the case of low elongation rate ( ) with fast deformation thickening with the steady state viscosity approaching infinity at some elongational rate () and at some compression rate (). This behavior seems to be realistic.Case of small deformation
For the case of small deformation the nonlinearities introduced by the Upper Convected Derivative disappear and the model became an ordinary model of
Maxwell material .References
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