Author:
Achilleos Evdokia,Georgiou Georgios C.,Hatzikiriakos Savvas G.
Abstract
Abstract
The objective of this study is mainly to review recent work concerning the numerical modeling of the stick-slip and gross melt fracture polymer extrusion instabilities. Three different mechanisms of instability are discussed: (a) combination of nonlinear slip with compressibility; (b) combination of nonlinear slip with elasticity; and (c) constitutive instabilities. Furthermore, preliminary numerical simulations of the time-dependent, compressible extrudate-swell flow of a Carreau fluid with slip at the wall, using a realistic macroscopic slip equation that is based on experimental data for a high-density polyethylene, are presented.
Subject
Condensed Matter Physics,General Materials Science
Reference85 articles.
1. The Effect of Molecular Mass and Temperature on the Slip of Polystyrene Melts at Low Stress Levels;Mackay;Rheol,1998
2. Theory of Melt Fracture Instabilities in the Capillary Flow of Polymer Melts;Shore;Rev E,1997
3. Time - Dependent Compressible Extrudate - Swell Problem with Slip at the Wall;Georgiou;Rheol,1994
4. Inlet Instabilities in the Capillary Flow of Polyethylene Melts;Pérez;Acta,1997
5. Direct Measure - ments of Slip in Sheared Polymer Solutions Fluid;Archer;Mech,1995
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