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Tisk na tekstil z uporabo funkcionalnih barv
ID Kobal, Ivana (Author), ID Muck, Deja (Mentor) More about this mentor... This link opens in a new window

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Abstract
Kljub porastu uporabe predvsem digitalnih tehnologij tiska pa ostajajo na področju sitotiska ključnega pomena aplikacije, pri katerih se uporabljajo posebne tiskarske barve. Te lahko povečajo dodano vrednost izdelku s povečano dekorativnostjo ali funkcionalnostjo. Diplomsko delo obsega analiziranje napihljive sito tiskarske barve, natisnjene na tkanini iz 100-odstotnih bombažnih vlaken. Za izvedbo tiska smo uporabljali dva sita, in sicer enega z nižjo gostoto tkanja (43–80, 0°, 15 N) ter drugega z višjo gostoto tkanja (61–64, 0°, 15 N). Adhezija tiskarske barve na tkanini je zelo dobra in po analiziranju smo ugotovili, da sodi v ISO Class: 1/ASTM Class 4B razvrstitev. Odpornost na drgnjenje smo testirali pri suhem in mokrem vzorcu. Po drgnjenju smo vzorce analizirali s programom ImageJ, s katerim smo merili srednjo sivinsko vrednost čiste tkanine, potiskane tkanine in pa proti odtisa. Iz razlik srednjih sivinskih vrednosti smo ugotovili, da so mokri vzorci manj odporni na drgnjenje kot suhi. Pri formaciji rastrske pike smo s programom ImageJ analizirali obseg natisnjene rastrske pike. Pri natisnjeni rastrski piki je prišlo do prirasta rastrske tonske vrednosti, vendar so bile razlike minimalne in s prostim očesom neopazne. Odpornost na pranje smo preverili pri več različnih temperaturah. Pranje je potekalo pri 40, 60 in 95 °C. Za ovrednotenje vpliva procesa pranja pri različnih temperaturah na odtis smo opravili spektrofotometrične meritve. Pri pranih vzorcih na 40 in 60 °C je bila vrednost barvne razlike zelo majhna, medtem ko je bila vrednost barvne razlike zmerna pri vzorcih, pranih na 95 °C. Preizkušanje barvne obstojnosti pri vročem likanju, smo preverjali s testom na mokro likanje. Vizualne ocene po sivi skali, niso pokazale nobenih proti-odtisov na belo tkanino. Prav tako, ni prišlo do spremembe barve vzorca po likanju. Spoznali smo, da napihljiva barva MINERFOAM SR, proizvajalca MINERVA S.p.A, Italija, v kombinaciji s črnim pigmentom NERO, proizvajalca MINERVA S.p.A, Italija, omogoča izdelavo visokokakovostnih odtisov na tkanini iz 100-odstotnih bombažnih vlaken.

Language:Slovenian
Keywords:sitotisk, bombaž, napihljiva barva, adhezivnost, formacija rastrske pike
Work type:Bachelor thesis/paper
Organization:NTF - Faculty of Natural Sciences and Engineering
Year:2020
PID:20.500.12556/RUL-115957 This link opens in a new window
Publication date in RUL:01.05.2020
Views:2274
Downloads:239
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Secondary language

Language:English
Title:Printing on textile with functional inks
Abstract:
Despite the increasing use of digital printing technologies, screen printing remains crucial in applications that use special printing inks. It adds value to a product with increased decoration or functionality. The diploma thesis involves the analysis of puff ink printed on 100 % cotton fabric. For printing we used two different sizes of screen, one with a lower weave density (4380, 0°, 15 N) and the other with a higher weave density (6164, 0°, 15 N). The adhesion of the printing ink to the fabric is very good and after analysis, we found that it belongs to the ISO Class: 1/ASTM Class 4B classification. Rubbing resistance was tested for dry and wet rubbing. The samples were analysed with ImageJ, which measured the mean grayscale value of the clean non-printed fabric, the printed fabric, and against the imprint. From the differences in the mean grayscale values, we found that wet samples were less resistant to rubbing than dry samples. Printed raster dots were analysed with ImageJ and the results were dot gain, but the differences between printed raster dots and original raster dots were minimal and unnoticeable to the eye. Resistance to washing was tested at several different temperatures. Washing was done at 40, 60 and 95 °C. Spectrophotometric measurements were performed to evaluate the influence of the washing process at different temperatures on the imprint. For washed samples at 40 and 60 °C, the colour difference was minimal, while the colour difference was still moderate on the samples washed at 95 °C. Colour fastness in hot ironing was tested with the wet ironing test. Visual assessments on a grayscale showed no transient ink on the white fabric. Also, there was no change in the colour of the samples after ironing. Therefore we have realised that the puff ink MINERFOAM SR, manufactured by MINERVA S.p.A, Italy, mixed with the black pigment NERO, manufactured by MINERVA S.p.A, Italy, enables the production of high quality prints on 100 % cotton fabric.

Keywords:Screen printing, Cotton, Puff inks, Adhesiveness, Raster dot formation

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