Optimization of image screen printing process on film biodegradable packaging

Optimization of image screen printing process on film biodegradable packaging

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 t...

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Bibliographic Details
Main Authors: Viktoriya Korotka, Svitlana Havenko, Kseniya Bazylyuk
Format: Article
Language:English
Published: University of Novi Sad 2017-12-01
Series:Journal of Graphic Engineering and Design
Subjects:
oxo-biodegradable film
technological printing parameters
regression analysis
correlation coefficients
mathematical modelling
optimization
Online Access:http://www.grid.uns.ac.rs/jged/?pid=1014#
id doaj-c96e7be1fec54523a29f081d3459bb6b
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spelling doaj-c96e7be1fec54523a29f081d3459bb6b2020-11-25T01:59:17ZengUniversity of Novi SadJournal of Graphic Engineering and Design2217-379X2217-98602017-12-0182111710.24867/JGED-2017-2-011Optimization of image screen printing process on film biodegradable packagingViktoriya Korotka0Svitlana Havenko1Kseniya Bazylyuk2Ukrainian Academy of Printing, Faculty of Publishing, Printing and Information Technologies, Lviv, Ukraine Ukrainian Academy of Printing, Faculty of Publishing, Printing and Information Technologies, Lviv, Ukraine Ukrainian Academy of Printing, Faculty of Publishing, Printing and Information Technologies, Lviv, Ukraine 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.http://www.grid.uns.ac.rs/jged/?pid=1014#oxo-biodegradable filmtechnological printing parametersregression analysiscorrelation coefficientsmathematical modellingoptimization
collection DOAJ
language English
format Article
sources DOAJ
author Viktoriya Korotka
Svitlana Havenko
Kseniya Bazylyuk
spellingShingle Viktoriya Korotka
Svitlana Havenko
Kseniya Bazylyuk
Optimization of image screen printing process on film biodegradable packaging
Journal of Graphic Engineering and Design
oxo-biodegradable film
technological printing parameters
regression analysis
correlation coefficients
mathematical modelling
optimization
author_facet Viktoriya Korotka
Svitlana Havenko
Kseniya Bazylyuk
author_sort Viktoriya Korotka
title Optimization of image screen printing process on film biodegradable packaging
title_short Optimization of image screen printing process on film biodegradable packaging
title_full Optimization of image screen printing process on film biodegradable packaging
title_fullStr Optimization of image screen printing process on film biodegradable packaging
title_full_unstemmed Optimization of image screen printing process on film biodegradable packaging
title_sort optimization of image screen printing process on film biodegradable packaging
publisher University of Novi Sad
series Journal of Graphic Engineering and Design
issn 2217-379X
2217-9860
publishDate 2017-12-01
description 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.
topic oxo-biodegradable film
technological printing parameters
regression analysis
correlation coefficients
mathematical modelling
optimization
url http://www.grid.uns.ac.rs/jged/?pid=1014#
work_keys_str_mv AT viktoriyakorotka optimizationofimagescreenprintingprocessonfilmbiodegradablepackaging
AT svitlanahavenko optimizationofimagescreenprintingprocessonfilmbiodegradablepackaging
AT kseniyabazylyuk optimizationofimagescreenprintingprocessonfilmbiodegradablepackaging
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