This paper is concerned with the numerical prediction of the extrudate swell behaviour of branched polymer melts in a planar configuration. The multi-mode extended pom-pom (XPP) model is used to describe the polymer dynamics. A second-order operator-integration-factor splitting scheme is used for the temporal discretisation of the problem, whilst a spectral element scheme is used in space. The free surface is evolved in a Lagrangian manner using the third-order conditionally stable Adams–Bashforth method. A thorough mesh convergence study is performed with respect to the temporal and spatial discretisation parameters. The influence of the nature of the discrete relaxation spectrum on the swelling ratio and as an indicator of polydispersity ...
Quantitative prediction of the rheological properties of polymers will become an important tool that...
We present stable and accurate spectral element methods for predicting the steady-state flow of bran...
This article describes isothermal contraction flows and extrudate swell, using our recent model for ...
This paper is concerned with the numerical prediction of the extrudate swell behaviour of branched p...
This paper describes experimental and computational modelling of the extrudate swell behaviour in tw...
In recent years, a number of constitutive equations have been derived from reptation theory to descr...
Accurate prediction of extrudate (die) swell in polymer melt extrusion is important as this helps in...
Extrudate swell is a common phenomenon observed in the polymer extrusion industry. Accurate predicti...
The paper is concerned with the numerical prediction of the flow of polymer melts using a pom-pom mo...
We report the first steps of a collaborative project between the University of Queensland, Polyflow,...
Polymer extrudate swell is a rheological phenomenon taking place after polymer melt flow emerges the...
The double-equation extended Pom-Pom (DXPP) constitutive model is used to study the macro and micro ...
In this study the extrudate swell of polymer solutions is estimated using the microstructure of poly...
The scope of this thesis is the mathematical modelling and the numerical simulation of polymer proce...
SIGLEAvailable from British Library Document Supply Centre-DSC:6029.28073(NPL-CMMT(A)--31) / BLDSC -...
Quantitative prediction of the rheological properties of polymers will become an important tool that...
We present stable and accurate spectral element methods for predicting the steady-state flow of bran...
This article describes isothermal contraction flows and extrudate swell, using our recent model for ...
This paper is concerned with the numerical prediction of the extrudate swell behaviour of branched p...
This paper describes experimental and computational modelling of the extrudate swell behaviour in tw...
In recent years, a number of constitutive equations have been derived from reptation theory to descr...
Accurate prediction of extrudate (die) swell in polymer melt extrusion is important as this helps in...
Extrudate swell is a common phenomenon observed in the polymer extrusion industry. Accurate predicti...
The paper is concerned with the numerical prediction of the flow of polymer melts using a pom-pom mo...
We report the first steps of a collaborative project between the University of Queensland, Polyflow,...
Polymer extrudate swell is a rheological phenomenon taking place after polymer melt flow emerges the...
The double-equation extended Pom-Pom (DXPP) constitutive model is used to study the macro and micro ...
In this study the extrudate swell of polymer solutions is estimated using the microstructure of poly...
The scope of this thesis is the mathematical modelling and the numerical simulation of polymer proce...
SIGLEAvailable from British Library Document Supply Centre-DSC:6029.28073(NPL-CMMT(A)--31) / BLDSC -...
Quantitative prediction of the rheological properties of polymers will become an important tool that...
We present stable and accurate spectral element methods for predicting the steady-state flow of bran...
This article describes isothermal contraction flows and extrudate swell, using our recent model for ...