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A Basic Study of Applicability of Regrind Polyethylene in Rotational Molding

  • S. S. Song , T. Nagy and J. L. White
Published/Copyright: May 27, 2013
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International Polymer Processing
From the journal International Polymer Processing Volume 7 Issue 3

Abstract

An experimental study on the use of regrind in rotomolded polyethylene parts is described. We investigated the introduction of 15, 30, and 100% reground polyethylene into the rotational molding operations. The number of regrind cycles varied from one to four. Rotational molding was done in air and nitrogen inner gas, respectively. The mechanical properties of the parts were investigated, including low temperature dart impact test, tensile test, and Izod impact test. Generally it was found that nitrogen atmospheres substantially improved the impact properties of rotomolded parts made with virgin polyethylene. With parts containing 15% and 30% regrind, the impact properties of boxes made in nitrogen are substantially higher than those molded in air. Also, adjustment of oven time to slight undercure for 15% regrind containing parts rotomolded in air gave good impact properties.

* Mail address: Prof. Dr. J. L. White, Institute of Polymer Engineering, University of Akron, Akron, Ohio 44325-0301, U.S.A.
Received: 1991-3-26
Accepted: 1991-11-29
Published Online: 2013-05-27
Published in Print: 1992-09-01

© 1992, Carl Hanser Verlag, Munich

Articles in the same Issue

  1. Contents
  2. Contents
  3. Internal Mixers
  4. 3D Flow Field Analysis of a Banbury Mixer
  5. Modelling Twin Rotor Mixers and Extruders
  6. Continuous Mixing
  7. Compounding of Thermoplastic Elastomers using Organosilanes
  8. Mixing History on the Morphology and Properties of Thermoplastic/LCP Blends
  9. Film
  10. Real Time Video Techniques in the Analysis of Blown Film Instability
  11. Two-phase Simulation of Tubular Film Blowing of Crystalline Polymers
  12. Molding
  13. Finite Element Simulation of Plug-assist Forming
  14. In-cycle Deterministic and Stochastic Dynamics of Extrusion Blow Molding
  15. Injection Molding of iPP
  16. A Basic Study of Applicability of Regrind Polyethylene in Rotational Molding
https://doi.org/10.3139/217.920274

Articles in the same Issue

  1. Contents
  2. Contents
  3. Internal Mixers
  4. 3D Flow Field Analysis of a Banbury Mixer
  5. Modelling Twin Rotor Mixers and Extruders
  6. Continuous Mixing
  7. Compounding of Thermoplastic Elastomers using Organosilanes
  8. Mixing History on the Morphology and Properties of Thermoplastic/LCP Blends
  9. Film
  10. Real Time Video Techniques in the Analysis of Blown Film Instability
  11. Two-phase Simulation of Tubular Film Blowing of Crystalline Polymers
  12. Molding
  13. Finite Element Simulation of Plug-assist Forming
  14. In-cycle Deterministic and Stochastic Dynamics of Extrusion Blow Molding
  15. Injection Molding of iPP
  16. A Basic Study of Applicability of Regrind Polyethylene in Rotational Molding
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