A global methodology for the rheological design of profile extrusion dies is proposed. This methodology accounts for: (i) flow defects due to maximum admissible stresses, pressure drop and melt temperature increase; (ii) post-extrusion phenomena (shrinkage upon cooling, draw-down promoted by pulling and swelling after die exit) and (iii) flow balancing. The part of the methodology, that is concerned with flow balancing, was implemented and is here illustrated in two case studies, each one leading to the adoption of a different constructive solution. The software is based on a finite-volume method, which performs the required three-dimensional simulations, and is also briefly described
The inherent design freedom promoted by the employment of thermoplastic profiles is one of the major...
In this work a novel methodology to balance the flow distribution in complex extrusion dies is propo...
Designing of the proposed profile extrusion die had few main tasks. One was to find out the most sui...
The rheological design of extrusion dies must consider the flow developed through the die channel an...
In this work we present improved design guidelines to support the die designer activity, when search...
In this work a previously developed die design code is used to optimise the flow distribution of a p...
To achieve a specified geometry for an extruded profile with minimal level of stress gradient induce...
A computer code, previously developed by the authors for the automatic die design, is used to optimi...
To achieve the specified geometry for an extruded profile together with a minimal degree of internal...
In this work a methodology to automatically balance the flow in profile extrusion dies is used. For ...
A computer code, previously developed by the authors for the automatic die design, is used to optimi...
To achieve a specified geometry for an extruded profile, together with a minimal degree of internal ...
There are two main issues to solve when designing a profile extrusion die, the flow distribution and...
Fluctuations of the operating conditions or slight variations of the polymer rheology may occur duri...
This work presents a study performed with an in-house 3D numerical modelling code, used to evaluate ...
The inherent design freedom promoted by the employment of thermoplastic profiles is one of the major...
In this work a novel methodology to balance the flow distribution in complex extrusion dies is propo...
Designing of the proposed profile extrusion die had few main tasks. One was to find out the most sui...
The rheological design of extrusion dies must consider the flow developed through the die channel an...
In this work we present improved design guidelines to support the die designer activity, when search...
In this work a previously developed die design code is used to optimise the flow distribution of a p...
To achieve a specified geometry for an extruded profile with minimal level of stress gradient induce...
A computer code, previously developed by the authors for the automatic die design, is used to optimi...
To achieve the specified geometry for an extruded profile together with a minimal degree of internal...
In this work a methodology to automatically balance the flow in profile extrusion dies is used. For ...
A computer code, previously developed by the authors for the automatic die design, is used to optimi...
To achieve a specified geometry for an extruded profile, together with a minimal degree of internal ...
There are two main issues to solve when designing a profile extrusion die, the flow distribution and...
Fluctuations of the operating conditions or slight variations of the polymer rheology may occur duri...
This work presents a study performed with an in-house 3D numerical modelling code, used to evaluate ...
The inherent design freedom promoted by the employment of thermoplastic profiles is one of the major...
In this work a novel methodology to balance the flow distribution in complex extrusion dies is propo...
Designing of the proposed profile extrusion die had few main tasks. One was to find out the most sui...