Pressure Variation during Interfacial Instability in the Coextrusion of Low Density Polyethylene Melts
Publication date
2013Keyword
Multilayer film coextrusion; Driven channel flow
; Viscoelastic fluids
; Numerical-simulation
; Elastic liquids
; Superposed flow
; Stability
; Die
; Stratification
; Geometries
Peer-Reviewed
Yes
Metadata
Show full item recordAbstract
Pressure variation during the coextrusion of two low density polyethylene melts was investigated. Melt streams were delivered to a die from two separate extruders to converge in a 30 degrees degrees geometry to form a two layer extrudate. Melt flow in the confluent region and die land to the die exit was observed through side windows of a visualisation cell. Stream velocity ratio was varied by control of extruder screw speeds. Layer thickness ratios producing wave type interfacial instability were quantified for each melt coextruded on itself and for the combined melts. Stream pressures and screw speeds were monitored and analysed. Wave type interfacial instability was present during the processing of the melts at specific, repeatable, stream layer ratios. Increased melt elasticity appeared to promote this type of instability. Analysis of process data indicates little correlation between perturbations in extruder screw speeds and stream pressures. The analysis did however show covariance between the individual stream pressure perturbations. Interestingly there was significant correlation even when interfacial instability was not present. We conclude that naturally occurring variation in extruder screw speeds do not perturb stream pressures and, more importantly, natural perturbations in stream pressures do not promote interfacial instability.Version
No full-text in the repositoryCitation
Martyn MT and Coates PD (2013) Pressure Variation during Interfacial Instability in the Coextrusion of Low Density Polyethylene Melts. International Polymer Processing. 28(5): 516-527.Link to Version of Record
https://doi.org/10.3139/217.2786Type
Articleae974a485f413a2113503eed53cd6c53
https://doi.org/10.3139/217.2786