Startseite Use of Chilled Die Lips to Improve Production Rates in Extrusion of PE
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Use of Chilled Die Lips to Improve Production Rates in Extrusion of PE

  • D. G. Cook , R. Cooke und A. Rudin
Veröffentlicht/Copyright: 27. Mai 2013
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International Polymer Processing
Aus der Zeitschrift International Polymer Processing Band 4 Heft 2

Abstract

Extrusion rates of polyethylene are limited by the onset of surface defects in the extrudates, which are variously termed sharkskin, melt fracture and so on. Several expedients are effective in relieving this problem. We report here that extrudate surface distortion can be eliminated under some conditions by cooling the die, at normal melt extrusion temperatures. This technique appears to be generally effective for LLDPE and HDPE. The process has been patented [10] for polymers with narrow molecular weight distributions.

* Mail address: Prof. Dr. Alfred Rudin, Guelph-Waterloo Centre for Graduate Work in Chemistry and Department of Chemistry, University of Waterloo, Waterloo, Ontario, Canada N2L 3G1.
Published Online: 2013-05-27
Published in Print: 1989-05-01

© 1989, Carl Hanser Verlag, Munich

Artikel in diesem Heft

  1. Contents
  2. Contents
  3. Review Paper
  4. New Developments in Fiber- and Filmextrusion
  5. Original Contributions
  6. Use of Chilled Die Lips to Improve Production Rates in Extrusion of PE
  7. Characterization of the Sharkskin Defect and its Development with the Flow Conditions**
  8. Modifying Threadline Dynamics in the High-speed Melt Spinning Process
  9. Computer Simulation of Multi filament Air Jet Melt Spinning
  10. Structure Development in the Melt Spinning and Drawing of Poly p Phenylene Sulfide Fibers
  11. Cast Film Extrusion of Polypropylene Films
  12. Air Ring Effect on Blown Film Dynamics
  13. Computer Simulation of Melt Viscoelasticity Functions for Binary Polyblends
https://doi.org/10.3139/217.890073

Artikel in diesem Heft

  1. Contents
  2. Contents
  3. Review Paper
  4. New Developments in Fiber- and Filmextrusion
  5. Original Contributions
  6. Use of Chilled Die Lips to Improve Production Rates in Extrusion of PE
  7. Characterization of the Sharkskin Defect and its Development with the Flow Conditions**
  8. Modifying Threadline Dynamics in the High-speed Melt Spinning Process
  9. Computer Simulation of Multi filament Air Jet Melt Spinning
  10. Structure Development in the Melt Spinning and Drawing of Poly p Phenylene Sulfide Fibers
  11. Cast Film Extrusion of Polypropylene Films
  12. Air Ring Effect on Blown Film Dynamics
  13. Computer Simulation of Melt Viscoelasticity Functions for Binary Polyblends
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