Polymer extrudate swelling is a rheological phenomenon that occurs after polymer melt flow emerges at the die exit of extrusion equipment due to molecular stress relaxations and flow redistributions. Specifically, with the growing demand for large scale and high productivity, polymer pipes have recently been produced by extrusion. This study reports the development of a new incompressible non-isothermal finite volume method, based on the Arbitrary Lagrangian–Eulerian (ALE) formulation, to compute the viscous flow of polymer melts obeying the Herschel–Bulkley constitutive equation. The Papanastasiou-regularized version of the constitutive equation is employed. The influence of the temperature on the rheological behavior of the material...
This paper describes finite-element simulations and associated experimental studies of extrudate swe...
Extrudate swell is a common phenomenon observed in the polymer extrusion industry. Accurate predicti...
In this paper we consider thermal effects of polymer flows through a cylindrical die. First, we deri...
Non-isothermal simulations have been undertaken for the flow of an IUPAC low-density polyethylene me...
This article describes isothermal contraction flows and extrudate swell, using our recent model for ...
It is well-known that, increasing the flow rate in polymer extrusion, the flow becomes unstable and ...
The analysis of extrudate swell in polymer melts is of great importance in many polymer processing o...
A 3D transient non-isothermal finite element code is developed to predict the extrudate shape of vis...
The impact of the slit die geometry and the polymer melt flow characteristics on the extrudate swell...
This thesis focusses on the measurement and prediction of extrudate (or die) swell of molten polymer...
The scope of this thesis is the mathematical modelling and the numerical simulation of polymer proce...
Polymer extrudate swell is a rheological phenomenon taking place after polymer melt flow emerges the...
Fiber spinning and extrusion flow in general, of viscoelastic liquids through dies, are the primary ...
Trabajo presentado en: Annual European Rheology Conference, Sorrento, 17 a 20 de abril de 2018Over t...
The geometrical modifications that take place when the flowing material leaves a confined flow insi...
This paper describes finite-element simulations and associated experimental studies of extrudate swe...
Extrudate swell is a common phenomenon observed in the polymer extrusion industry. Accurate predicti...
In this paper we consider thermal effects of polymer flows through a cylindrical die. First, we deri...
Non-isothermal simulations have been undertaken for the flow of an IUPAC low-density polyethylene me...
This article describes isothermal contraction flows and extrudate swell, using our recent model for ...
It is well-known that, increasing the flow rate in polymer extrusion, the flow becomes unstable and ...
The analysis of extrudate swell in polymer melts is of great importance in many polymer processing o...
A 3D transient non-isothermal finite element code is developed to predict the extrudate shape of vis...
The impact of the slit die geometry and the polymer melt flow characteristics on the extrudate swell...
This thesis focusses on the measurement and prediction of extrudate (or die) swell of molten polymer...
The scope of this thesis is the mathematical modelling and the numerical simulation of polymer proce...
Polymer extrudate swell is a rheological phenomenon taking place after polymer melt flow emerges the...
Fiber spinning and extrusion flow in general, of viscoelastic liquids through dies, are the primary ...
Trabajo presentado en: Annual European Rheology Conference, Sorrento, 17 a 20 de abril de 2018Over t...
The geometrical modifications that take place when the flowing material leaves a confined flow insi...
This paper describes finite-element simulations and associated experimental studies of extrudate swe...
Extrudate swell is a common phenomenon observed in the polymer extrusion industry. Accurate predicti...
In this paper we consider thermal effects of polymer flows through a cylindrical die. First, we deri...