Home Influence of processing conditions on heat sealing behavior and resultant heat seal strength for peelable heat sealing of multilayered polyethylene films
Article
Licensed
Unlicensed Requires Authentication

Influence of processing conditions on heat sealing behavior and resultant heat seal strength for peelable heat sealing of multilayered polyethylene films

  • Toshiharu Iwasaki EMAIL logo , Wataru Takarada and Takeshi Kikutani
Published/Copyright: March 16, 2016
Become an author with De Gruyter Brill
Submit Manuscript Author Information
Journal of Polymer Engineering
From the journal Journal of Polymer Engineering Volume 36 Issue 9

Abstract

The effects of processing conditions for peelable heat sealing of multilayered polyethylene (PE) films on heat sealing behavior and heat seal strength were investigated. Two sets of seal bars, knurled shape and flat shape, were used for heat sealing. After the heat sealing, the sealed portion was cooled using a set of cooling bars. Heat sealing temperature was adjusted to yield the heat seal strength of 4.0 N/15 mm, 6.0 N/15 mm and 8.0 N/15 mm at the heat sealing pressure of 0.4 MPa for each set of heat sealing bars. The heat seal strength increased with the increase of heat sealing pressure for the knurled shape bars, while it was less affected by heat sealing pressure for the flat shape bars. In situ measurements of the sealing bar clearance and interface temperature revealed that the reduction speed of clearance was significantly affected by the pressure for knurled shape bars, while it was almost independent of pressure for flat shape bars. Even though the temperatures set for the similar heat seal strength were different between knurled and flat shape bars, the maximum temperatures at the interface were almost identical. The effect of the shape of seal bars on heat seal strength became less significant after the sterilization process.

Keywords: peelable heat sealing; polyethylene; sterilization
Corresponding author: Toshiharu Iwasaki, Research and Development Laboratory, Hosokawa Yoko Co., Ltd., 637 Kitanagai, Miyoshi-cho, Iruma-gun, Saitama, 352-0044, Japan, e-mail: ; and Department of Organic and Polymeric Materials, Graduate School of Science and Engineering, Tokyo Institute of Technology, Tokyo, Japan

References

[1] Adriane GS, Cristovao de L, Marcia P. Polym. Test. 2013, 32, 279–290.10.1016/j.polymertesting.2012.11.010Search in Google Scholar

[2] Miyata K, Ozama T, Nishioka A, Koda T, Murasawa G. J. Plast. Film Sheeting 2013, 30, 28–47.10.1177/8756087913487542Search in Google Scholar

[3] Hashimoto Y, Hashimoto Y, Yamada K, Miyata K. Seikei Kakou 2011, 23, 691–697.10.4325/seikeikakou.23.691Search in Google Scholar

[4] Tsujii T, Hashimoto Y, Ishiaku US, Mizoguchi M, Leong YW, Hamada H. J. Appl. Polym. Sci. 2006, 99, 513–519.10.1002/app.22443Search in Google Scholar

[5] Hashimoto Y, Ishiaku US, Leong YW, Hamada H, Tsujii T. Polym. Eng. Sci. 2006, 46, 205–214.10.1002/pen.20452Search in Google Scholar

[6] Aithani D, Lockhart H, Auras R, Tanprasert K. Packag. Technol. Sci. 2006, 19, 245–257.10.1002/pts.728Search in Google Scholar

[7] Cheng SY, Azman H, Mohd IHG, Ahmad FI. J. Appl. Polym. Sci. 2007, 104, 3736–3745.10.1002/app.25863Search in Google Scholar

[8] Meka P, Stehling FC. J. Appl. Polym. Sci. 1994, 51, 89–103.10.1002/app.1994.070510111Search in Google Scholar

[9] Stehling FC, Meka P. J. Appl. Polym. Sci. 1994, 51, 105–119.10.1002/app.1994.070510112Search in Google Scholar

[10] Theller HW. J.Plast. Film Sheeting 1989, 5, 66–93.10.1177/875608798900500107Search in Google Scholar

[11] Planes E, Marouani S, Flandin L. J. Mater. Sci. 2011, 46, 5948–5958.10.1007/s10853-011-5550-4Search in Google Scholar

[12] Hashimoto Y, Hashimoto Y, Yamada K, Miyata K, Urushiyama S. Seikei Kakou 2014, 26, 88–92.10.4325/seikeikakou.26.88Search in Google Scholar

[13] Yamada K, Miyata K, Konishi R, Tsujii T, Hashimoto Y. AIP Conf. Proc. 2015, 1664, 080002.10.1063/1.4918458Search in Google Scholar

[14] Max S. In Medical Device Packaging Handbook, Marcel Dekker, Inc.: New York, USA, 1998, p 274.Search in Google Scholar

[15] Fairclough JPA, Conti M. Packag. Technol. Sci. 2009, 22, 303–310.10.1002/pts.858Search in Google Scholar

[16] Song S, Feng J, Wu P. J. Polym. Sci., Part B: Polym. Phys. 2011, 49, 1347–1359.10.1002/polb.22304Search in Google Scholar

[17] Lo CT, Laabs FC, Narasidmhan B. J. Polym. Sci., Part B: Polym. Phys. 2004, 42, 2667–2679.10.1002/polb.20148Search in Google Scholar

[18] Iwasaki T, Takarada W, Kikutani T. Seikei Kakou 2016, 28, 34–40.10.4325/seikeikakou.28.34Search in Google Scholar

[19] Honzawa Y. Jap. Pat. 1997, 1997-136388, 1–5.Search in Google Scholar

Received: 2015-9-3
Accepted: 2015-12-26
Published Online: 2016-3-16
Published in Print: 2016-11-1

©2016 Walter de Gruyter GmbH, Berlin/Boston

Articles in the same Issue

  1. Frontmatter
  2. Original articles
  3. Preparation and characterization of graphene oxide/PMMA nanocomposites with amino-terminated vinyl polydimethylsiloxane phase interfaces
  4. Effect of exfoliated graphite nanoplatelets on thermal and heat deflection properties of kenaf polypropylene hybrid nanocomposites
  5. Synthesis of spherical porous cross-linked glutaraldehyde/poly(vinyl alcohol) hydrogels
  6. Influence of process parameters on property of PP/EPDM blends prepared by a novel vane extruder
  7. Influence of processing conditions on heat sealing behavior and resultant heat seal strength for peelable heat sealing of multilayered polyethylene films
  8. Thermal degradation kinetics and lifetime of HDPE/PLLA/pro-oxidant blends
  9. Effect of notch sensitivity on the mechanical properties of HA/PEEK functional gradient biocomposites
  10. The influence of melt mixing on the stability of cellulose acetate and its carbon nanotube composites
  11. Experimental analysis of resin infusion in air cushion method
  12. 3D-MID manufacturing via laser direct structuring with nanosecond laser pulses
https://doi.org/10.1515/polyeng-2015-0383
Keywords for this article
peelable heat sealing; polyethylene; sterilization

Articles in the same Issue

  1. Frontmatter
  2. Original articles
  3. Preparation and characterization of graphene oxide/PMMA nanocomposites with amino-terminated vinyl polydimethylsiloxane phase interfaces
  4. Effect of exfoliated graphite nanoplatelets on thermal and heat deflection properties of kenaf polypropylene hybrid nanocomposites
  5. Synthesis of spherical porous cross-linked glutaraldehyde/poly(vinyl alcohol) hydrogels
  6. Influence of process parameters on property of PP/EPDM blends prepared by a novel vane extruder
  7. Influence of processing conditions on heat sealing behavior and resultant heat seal strength for peelable heat sealing of multilayered polyethylene films
  8. Thermal degradation kinetics and lifetime of HDPE/PLLA/pro-oxidant blends
  9. Effect of notch sensitivity on the mechanical properties of HA/PEEK functional gradient biocomposites
  10. The influence of melt mixing on the stability of cellulose acetate and its carbon nanotube composites
  11. Experimental analysis of resin infusion in air cushion method
  12. 3D-MID manufacturing via laser direct structuring with nanosecond laser pulses
Sign up now to receive a 20% welcome discount
Institutional Access
How does access work?
Have an idea on how to improve our website?
Please write us.
© 2025 De Gruyter Brill
Downloaded on 3.12.2025 from https://www.degruyterbrill.com/document/doi/10.1515/polyeng-2015-0383/pdf?lang=en
Scroll to top button