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Stabilising the Structure of HDPE by the Use of Highly-dispersed Mixture of Fe/FeO

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Veröffentlicht/Copyright: 4. Juni 2013
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International Polymer Processing
Aus der Zeitschrift International Polymer Processing Band 13 Heft 1

Abstract

An oxygen acceptive catalyser Fe/FeO mixture was added to the high density polyethylene (HDPE) at different amounts and the stabilisation effects of this additive on the structure of HDPE was investigated. It was shown that the mechanical behaviour and the temperature stability of HDPE was significantly improved with the application of the additive. The experimental results were found to be in accordance with analytical approaches.

* Mail address: Prof. Dr. S. Ozden, Dept. of Mechanical Engineering, Erciyes University, 38039 Talas, Kayseri, Turkey
Received: 1996-7-23
Accepted: 1997-10-30
Published Online: 2013-06-04
Published in Print: 1998-03-01

© 1998, Carl Hanser Verlag, Munich

Artikel in diesem Heft

  1. Contents
  2. Contents
  3. Editorial
  4. J. A. Biesenberger, G. Astarita, D. C. Bogue
  5. Screw Extrusion/Mixing
  6. Modeling Solids Conveying in Polymer Extruders
  7. Comparison between LDPE Conventional and Autothermal Extrusion Characteristics
  8. Transesterification of Ethylene Acetate Copolymer in a Twin Screw Extruder
  9. Stabilising the Structure of HDPE by the Use of Highly-dispersed Mixture of Fe/FeO
  10. Pumping Characteristics of an Intermeshing Co-rotating Twin Screw Extruder
  11. Flow Behaviour of Blends of Poly(ethylene-Co-Acrylic Acid) and Epoxidised Natural Rubber
  12. Die Extrusion
  13. Rheological Behaviour of HDPE/PA 11 Blends
  14. Melt Flow Properties of LDPE/HDPE Blends in Capillary Extrusion
  15. Fibers and Film
  16. Rheological Behaviour of LLDPE/LDPE Blends under Elongational Deformation
  17. Processing/Structure Relationships of Mica-Filled PE-Films with Low Oxygen Permeability
  18. On the Charge State of Melt-Blown Polymer Materials
  19. Temperature Measuring in Plastics Processing with Infrared Radiation Thermometers
  20. Comparative Study of Structure Development in Melt Spinning Polyolefin Fibers
  21. Moulding
  22. Sintering Rheology of Semi-Crystalline Polymers
  23. Molding
  24. Melt Flow Instabilities of Filled HDPE
  25. Experimental Validation of Shrinkage Predictions for Injection Molded Products
https://doi.org/10.3139/217.980023

Artikel in diesem Heft

  1. Contents
  2. Contents
  3. Editorial
  4. J. A. Biesenberger, G. Astarita, D. C. Bogue
  5. Screw Extrusion/Mixing
  6. Modeling Solids Conveying in Polymer Extruders
  7. Comparison between LDPE Conventional and Autothermal Extrusion Characteristics
  8. Transesterification of Ethylene Acetate Copolymer in a Twin Screw Extruder
  9. Stabilising the Structure of HDPE by the Use of Highly-dispersed Mixture of Fe/FeO
  10. Pumping Characteristics of an Intermeshing Co-rotating Twin Screw Extruder
  11. Flow Behaviour of Blends of Poly(ethylene-Co-Acrylic Acid) and Epoxidised Natural Rubber
  12. Die Extrusion
  13. Rheological Behaviour of HDPE/PA 11 Blends
  14. Melt Flow Properties of LDPE/HDPE Blends in Capillary Extrusion
  15. Fibers and Film
  16. Rheological Behaviour of LLDPE/LDPE Blends under Elongational Deformation
  17. Processing/Structure Relationships of Mica-Filled PE-Films with Low Oxygen Permeability
  18. On the Charge State of Melt-Blown Polymer Materials
  19. Temperature Measuring in Plastics Processing with Infrared Radiation Thermometers
  20. Comparative Study of Structure Development in Melt Spinning Polyolefin Fibers
  21. Moulding
  22. Sintering Rheology of Semi-Crystalline Polymers
  23. Molding
  24. Melt Flow Instabilities of Filled HDPE
  25. Experimental Validation of Shrinkage Predictions for Injection Molded Products
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