Startseite Stretchability and Properties of LLDPE Blends for Biaxially Oriented Film
Artikel
Lizenziert
Nicht lizenziert Erfordert eine Authentifizierung

Stretchability and Properties of LLDPE Blends for Biaxially Oriented Film

  • H. Uehara , K. Sakauchi , T. Kanai und T. Yamada
Veröffentlicht/Copyright: 2. Mai 2013
Veröffentlichen auch Sie bei De Gruyter Brill
Manuskript einreichen Informationen für Autor*innen
International Polymer Processing
Aus der Zeitschrift International Polymer Processing Band 19 Heft 2

Abstract

In order to improve the stretchability of linear low density polyethylene (LLDPE) for double bubble tubular film (DBTF), the blending of LLDPEs have been investigated. Three LLDPEs of varying densities were blended, and several films having different densities, molecular-weight distributions and composition distributions were produced. The stretchability and properties of these films were investigated and the relationship between the stretchability and the material properties were also discussed. The material properties of LLDPE which showed better stretchability were reported. Furthermore, the stretchability of LLDPE by using the laboratory tenter stretched film (LTSF) and the DBTF were compared. The prediction of the stretchability for the DBTF by using the LTSF was reported.

Mail address: H. Uehara, Functional Products Dept., Okura Industrial Co., Ltd., 1515 Nakatsu-cho, Marugame-shi, Kagawa-ken 763-8508, Japan E-mail:

References

1 U. S. Patent 2 979 777 (1961), Goldman, M..Suche in Google Scholar

2 U. S. Patent 3 510 549 (1970), Tsubosita, K., Kano, T..Suche in Google Scholar

3 U. S. Patent 3 260 776 (1966), Lindstrom, C..Suche in Google Scholar

4 U. S. Patent 3 300 555 (1967), Bild, F., Robinson, W..Suche in Google Scholar

5 U. S. Patent 4112 034 (1978), Nash, J. L., Polish, S. J., Carrico, P. H..Suche in Google Scholar

6 U. S. Patent 4 156 709 (1979), Kazuo, K., Toyoki, W..Suche in Google Scholar

7 U. S. Patent 4 597 920 (1986), Ralph, G..Suche in Google Scholar

8 U. S. Patent 5 904 964 (1999), Douglas, J..Suche in Google Scholar

9 U. S. Patent 5 298 202 (1994), Schirmer, H..Suche in Google Scholar

10 Uehara, H., Sakauchi, K., Kanai, T., Yamada, T.: Intern. Polym. Process.19, p. 155 (2004).10.3139/217.1813Suche in Google Scholar

11 U. S. Patent 4 801 652 (1989), Mizutani, T., Isozaki, H..Suche in Google Scholar

12 U. S. Patent 3 663 662 (1972), Ostapchenko, J., Williamsville.10.1016/S0005-7894(72)80039-XSuche in Google Scholar

13 U. S. Patent 5 589 561 (1996), Barry, R., Pellereau, B..Suche in Google Scholar

14 Hill, M. J., Barton, P. J.: Polymer9, p. 1802 (1994).10.1016/0032-3861(94)90968-7Suche in Google Scholar

15 Hill, M. J., Barton, P. J.: Polymer8, p. 1903 (1997).Suche in Google Scholar

16 Person, J. R. A., Petrie, C. J. S., J.Fluid: Mech.42, p. 609 (1970).10.1017/S0022112070001507Suche in Google Scholar

17 Kanai, T., Campbell, G. A. (Eds.): Film Processing. Hanser Publishers, Munich (1999).10.3139/9783446401792.fmSuche in Google Scholar

18 Housaki, T.: Bunseki9, p. 518 (2000).Suche in Google Scholar

Received: 2002-12-18
Accepted: 2003-12-11
Published Online: 2013-05-02
Published in Print: 2004-05-01

© 2004, Carl Hanser Verlag, Munich

Artikel in diesem Heft

  1. Contents
  2. Contents
  3. Editorial
  4. DuPont, IG Farbenindustrie, ICI and Japanese PA Fiber Manufacturers Polyamides 66 and 6
  5. Screw Extrusion
  6. Modeling the Flow in the Metering Zone of Single Screw Extruders Using a Helical Geometry Model
  7. Engineering Analysis of Devolatilization of Various Additives in Intermeshing Co-rotating Twin Screw Extruders
  8. Die Extrusion
  9. Novel Extrusion Dies with Rotating Rollers for CO2-Plastic Foam Production
  10. Experimental Investigation of the Development of Interfacial Instabilities in Two Layer Coextrusion Dies
  11. Detachment of the Polymer Melt from the Roll Surface: Calendering Analysis and Data from a Shear Roll Extruder
  12. Reactive Extrusion
  13. Reactive Extrusion of SAN/EPDM Blends
  14. Film
  15. Easy Tear Film of Biaxially Oriented PA 6/MXD 6 Blend by Double Bubble Tubular Film Process
  16. Deformation Behavior, Processability and Physical Properties for Biaxially Oriented Film of LLDPE
  17. Stretchability and Properties of LLDPE Blends for Biaxially Oriented Film
  18. Stretchability and Properties of Various LLDPE for Biaxially Oriented Film
  19. Molding
  20. Microinjection Molding with LIGA-Like Process
  21. Thermoforming
  22. On the Use of the Heating Stage to Control the Thickness Distribution in Thermoformed Parts
  23. PPS News
  24. PPS News
https://doi.org/10.3139/217.1812

Artikel in diesem Heft

  1. Contents
  2. Contents
  3. Editorial
  4. DuPont, IG Farbenindustrie, ICI and Japanese PA Fiber Manufacturers Polyamides 66 and 6
  5. Screw Extrusion
  6. Modeling the Flow in the Metering Zone of Single Screw Extruders Using a Helical Geometry Model
  7. Engineering Analysis of Devolatilization of Various Additives in Intermeshing Co-rotating Twin Screw Extruders
  8. Die Extrusion
  9. Novel Extrusion Dies with Rotating Rollers for CO2-Plastic Foam Production
  10. Experimental Investigation of the Development of Interfacial Instabilities in Two Layer Coextrusion Dies
  11. Detachment of the Polymer Melt from the Roll Surface: Calendering Analysis and Data from a Shear Roll Extruder
  12. Reactive Extrusion
  13. Reactive Extrusion of SAN/EPDM Blends
  14. Film
  15. Easy Tear Film of Biaxially Oriented PA 6/MXD 6 Blend by Double Bubble Tubular Film Process
  16. Deformation Behavior, Processability and Physical Properties for Biaxially Oriented Film of LLDPE
  17. Stretchability and Properties of LLDPE Blends for Biaxially Oriented Film
  18. Stretchability and Properties of Various LLDPE for Biaxially Oriented Film
  19. Molding
  20. Microinjection Molding with LIGA-Like Process
  21. Thermoforming
  22. On the Use of the Heating Stage to Control the Thickness Distribution in Thermoformed Parts
  23. PPS News
  24. PPS News
Jetzt anmelden und 20% sparen
Institutioneller Zugang
Wie funktioniert Authentifizierung?
Haben Sie eine Idee, wie wir unsere Website verbessern können?
Bitte schreiben Sie uns.
© 2025 De Gruyter Brill
Heruntergeladen am 2.11.2025 von https://www.degruyterbrill.com/document/doi/10.3139/217.1812/html
Button zum nach oben scrollen