Abstract
Thermal modeling in polymer extrusion
by Jan Bouwe van den Berg, Onno Bokhove, Mark Peletier, JF Williams,
and Hans Zwart
In this paper we consider thermal effects of polymer flows through
a cylindrical die.
First, we derive a model for the oscillatory behavior of polymer flow
in an extruder given a functional relation between the pressure and flow rate.
A simple isothermal but temperature dependent model is constructed to find
this relation. Unfortunately, the model is
shown to be invalid in the physical regime of interest.
We present several arguments to suggest that the isothermal assumption
is reasonable but that a more detailed
understanding of the small-scale molecular dynamics
near the boundary may be required.
Second, we show that a simplified model for thermoflow multiplicity
in a cooled tube is inconsistent, when the stationary non-Newtonian
flow is assumed to be incompressible without radial pressure gradients and
without radial velocity. This inconsistency can be removed
by allowing for weak compressibility effects in the down-steam area.