Acta Mechanica Slovaca 2018, 22(4):6-11 | DOI: 10.21496/ams.2018.028

Microcellular Co-Extrusion Process and Selected Properties of Thin-Walled Products

Aneta Tor-¦wi±tek1, Ludmila Dulebova2
1 Lublin University of Technology, Faculty of Mechanical Engineering, Department of Technology and Polymer Processing, 36 Nadbystrzycka St., 20-618 Lublin, Poland
2 Technical University of Ko¹ice, Faculty of Mechanical Engineering, Department of Mechanical Engineering Technologies and Materials, 74 Mäsiarska St., 040 01 Ko¹ice, Slovakia

The microcellular extrusion process takes place with the use of conventional technological line for extruding shapes and coatings under the changed processing conditions, such as temperature for particular zones of the plasticizing system and extruder head zones. The process differs from the conventional method with regard to the method of shaping the extruder product. In the conventional extrusion process, the plastic has a homogenous structure across the whole section, whereas during microcellular extrusion process the plastic, containing the input plastic and a special blowing agent, obtains a two-phase structure changing its structure into microcellular. One phase is solid and the other is microcellular. Microcellular phase is obtained by inserting the blowing agent into the input plastic during its manufacture. It takes place in the penultimate zone of the plasticizing system of the extruder under suitable process conditions which enable expansion of the blowing agent. Currently applied blowing agents have the form of gases and liquids (then they are inserted into the plasticizing system of the extruder by means of a special installation) but also powders and granulates inserted into the plasticizing system of the extruder together with the input plastic after previously mixing thereof. The article presents characteristics of the microcellular extrusion process and it describes selected research results of the process and microcellular extruder product properties.

Keywords: microcellular extrusion process, blowing agent, micro pores, poly(vinyl chlorine).

Published: February 1, 2019  Show citation

ACS AIP APA ASA Harvard Chicago Chicago Notes IEEE ISO690 MLA NLM Turabian Vancouver
Tor-¦wi±tek, A., & Dulebova, L. (2018). Microcellular Co-Extrusion Process and Selected Properties of Thin-Walled Products. Acta Mechanica Slovaca22(4), 6-11. doi: 10.21496/ams.2018.028
Share...
Download citation
  • BibTeX (.bib)
  • Bookends (.ris)
  • EasyBib (.ris)
  • EndNote (.enw)
  • EndNote 8 (.xml)
  • ISI WoS (.isi)
  • Medlars (.medlars)
  • Mendeley (.ris)
  • MODS (.xml)
  • Papers (.ris)
  • RefWorks (.txt)
  • RefManager (.ris)
  • RIS (.ris)
  • MS Word (.xml)
  • Zotero (.ris)
    • Open full article

    References

    1. Bieliñski, M., (2004). Techniki porowania tworzyw termoplastycznych, Wydawnictwo Uczelniane ATR w Bydgoszczy,
    2. Garbacz, T., Jachowicz, T., Tor-¦wi±tek, A., (2016). The effect of blowing agents on the effectiveness of poly(vinyl chloride) extrusion. Advances in Science and Technology Research Journal, 10, 32, 217-223. Go to original source...
    3. Tor-¦wi±tek, A., (2013). Evaluation of the effectiveness of the microcellular extrusion process of low density polyethylene. Eksploatacja I Niezawodnosc-Maintenance and Reliability, 15, 3, 225-229.
    4. Tor-¦wi±tek, A., (2015). Innovative hybrid polymer composites cellular polymer-metal powder obtained in extrusion process. Acta Innovations, 17, 12-21.
    5. Markovièovà, L., Hurtalova, L, Zatkaliková, V., Garbacz, T., (2014). Evaluation of composite structures by light microscopy and image analysis. Manufacturing Technology : Journal For Science, Research And Production,14, 3, 351-355. Go to original source...
    6. B³êdzki, A., Karuk, O., Kirschling, H., Kühn, J., Jaszkiewicz, A., (2006). Microcellular polymers and composites. Polimery, 10, 51, 697. Go to original source...
    7. Garbacz, T., Dulebova, L., (2013). Porophors used in the extrusion process. Chemistry & Chemical Technology, 7, 1, 113-118. Go to original source...
    8. R. Sikora, (2006). Przetwórstwo tworzyw Polimerowych, Wydawnictwo Politechniki Lubelskiej, Lublin.
    9. Sikora, J., Samuj³o, B., (2013). Impact of feed opening width and position on PVC extrusion process effectiveness. International Polymer Processing, 28, 3, 291-299. Go to original source...
    10. Klepka, T., Garbacz, T., Boci±ga, E., (2014). Some properties of extruded porous microducts. Przemysl Chemiczny, 93, 6, 907-910.
    11. PN-EN ISO 845:2000. Cellular Plastics and Rubbers, "Determination of Apparent (Bulk) Density.
    12. PN-EN ISO 1798:2001. Flexible porous plastic - Determination of tensile strength and elongation at break.

    This is an open access article distributed under the terms of the Creative Commons Attribution 4.0 International License (CC BY 4.0), which permits use, distribution, and reproduction in any medium, provided the original publication is properly cited. No use, distribution or reproduction is permitted which does not comply with these terms.


    Return to the content