Journal of Graphic Engineering and Design

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Vol. 8 No. 2 (2017): JGED - December 2017
Original scientific paper

Optimization of image screen printing process on film biodegradable packaging

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  • Viktoriya Korotka,
  • Svitlana Havenko,
  • Kseniya Bazylyuk
Viktoriya Korotka
Ukrainian Academy of Printing, Faculty of Publishing, Printing and Information Technologies, Lviv, Ukraine
Svitlana Havenko
Ukrainian Academy of Printing, Faculty of Publishing, Printing and Information Technologies, Lviv, Ukraine
Kseniya Bazylyuk
Ukrainian Academy of Printing, Faculty of Publishing, Printing and Information Technologies, Lviv, Ukraine
DOI: https://doi.org/10.24867/JGED-2017-2-011

Published 2017-12-01

abstract views: 25 // Full text article (PDF): 34


Keywords

  • oxo-biodegradable film,
  • technological printing parameters,
  • regression analysis,
  • correlation coefficients,
  • mathematical modelling,
  • optimization
    • ...More
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How to Cite

Korotka, V., Havenko, S., & Bazylyuk, K. (2017). Optimization of image screen printing process on film biodegradable packaging. Journal of Graphic Engineering and Design, 8(2), 11–17. https://doi.org/10.24867/JGED-2017-2-011

Copyright (c) 2017 © 2017 Authors. Published by the University of Novi Sad, Faculty of Technical Sciences, Department of Graphic Engineering and Design. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution license 3.0 Serbia.

Creative Commons License

This work is licensed under a Creative Commons Attribution 3.0 Unported License.

Abstract

  • The article presents the research results of screen printing technological parameters to produce high-quality images on oxo-biodegradable film packaging. Printing parameters that influence the ink layer resistance to abrasion and the image resolution the most significantly have been set, analysing the experimental data. A direct linear correlation between the ink layer resistance to abrasion and the size of a technological clearance as well as between the image resolution and the lineature of a screen printing plate mesh has been shown. As a result of the study, mathematical models have been designed and the optimization of screen printing parameters has been made, providing high quality imprints with image high resolution, the ink layer of which is the most resistant to abrasion.

 

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