Research Article
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Year 2023, Volume: 33 Issue: 4, 366 - 374, 31.12.2023
https://doi.org/10.32710/tekstilvekonfeksiyon.1145260

Abstract

References

  • 1. Kašiković N, Novaković D, Karlovic I, Vladić G. 2012. Influence of Ink Layers on the Quality of Ink Jet Printed Textile Materials. Textile ve Konfekiyon 22(2), 115-124.
  • 2. Golja B, Forte Tavčer P. 2016. Textile Functionalisation by Printing Fragrant, Antimicrobial, and Flame-Retardant Microcapsules. Tekstilec 59(4), 278-288.
  • 3. Ružičić B, Stepanić M, Kasiković N, Majnarić I. 2015. The Influence of Thermal Load on the Print Quality of Screen Printed Knitted Fabric. Advanced technologies 4(1), 78-83.
  • 4. Boh Podgornik B, Šandić S, Kert M. 2021. Microencapsulation for Functional Textile Coatings with Emphasis on Biodegradability-A Systematic Review. Coatings 11(11), 1371.
  • 5. El-Halwagy AA, El-Sayad SH, El-Molla MM. 2001. Sublimation Transfer Printing of Cotton and Wool Fabrics. Macromolecular Materials and Engineering 286(10), 618-623.
  • 6. Özgüney TA, Seçim P, Demir A, Gülümser, Özdogan E. 2015. Ecological Printing of Madder Over Various Natural Fibres. Textile ve Konfekiyon 25(2), 166-171.
  • 7. Tavčer Forte P, Štular D, Ahtik J. 2013. Digital Printing of Anaglyph Onto Textile. Textile ve Konfekiyon 23(4), 381-386.
  • 8. Stančić M, Grujić D, Kašiković N, Novaković D, Ružičić B, Milošević R. 2015. Influence of Washing Process and the Perspiration Effects on the Qualities of Printed Textile Substrates. Tekstilec 58(2), 135-142.
  • 9. Kalendraite B, Krisciunaite J, Mikucioniene D. 2021. Influence of Sublimation Process on Air Permeability and water Absorptio Dynamics. International Journal of Clothing Science and Technology 33(6), 863-872.
  • 10. Stojanović S, Grešak J, Trajović D, Ćirković N. 2020. Influence of Sublimation Transfer Printing on Alterations in the Structural and Physical Properties of Knitted Fabrics. Coloration Technology 137(2), 108-122.
  • 11. Kanik M, Bayari HA. 2003. Effect of Weight Reduction Process on Printing Properties of Polyester Fabrics. Coloration Technology 199(5), 264-268.
  • 12. Özomay M, Özomay Z. 2021. The Effect of Temperature and Time Variables on Printing Quality in Sublimation Transfer Printing on Nylon and Polyester Fabric. European Journal of Science and Technology 23, 882-891.
  • 13. Cie C. 2015. Ink Jet Textile Printing. Oxford: Woodhead Publishing.
  • 14. Sharma A. 2010. Evaluation of Ink Optimization Technology in Offset Color Printing. Journal of Imaging Science and Technology 54(6), 0605041-06050413.
  • 15. Kumar AJ, Kumar SM. 2021. Optimisation of the Sublimation Textile Printing Process Using the Taguchi Method. FIBRES & TEXTILES in Eastern Europe 29(1/145), 75-79.
  • 16. Xiumei L, Zhiqiang C, Rongfeng L, Fushou L, Jiyou H. 2017. CN107435275B. Beijing, China.
  • 17. Kumar R. 2021. Dynamic of Sublimation Printing. International Journal of Trend in Scientific Research and Development 5(6), 397-401.
  • 18. Stojanović S, Grešak J, Trajković D. 2021. Compression Properties of Knitted Fabrics Printed by Sublimation Transfer Printing Technique. Advanced Technologies 10(1), 46-53.
  • 19. Uppuluri A. 2022, May 25. GLCM Texture Feature. https://ww2.mathworks.cn/matlabcentral/fileexchange/22187-glcm-texture-features?s_tid=FX_rc1_behav
  • 20. Shedd WM, Jose DB, Diƶier JG. 2008. US2008/0229962A1. Alexandria, Virginia.
  • 21. Stančić M, Kasiković N, Novaković D, Milošević R, Grujić D. 2013. Thermal Load Effect on Print Quality of Ink-Jet Printed Textile Materials. Journal of Graphic Engineering and Design 4(2), 27-33.
  • 22. Vojčić Đ, Ružičić B. 2017. The Influence of Washing Treatment and Macro Non-Uniformity on Color Reproduction of Screen Printed Cotton Knitted Fabrics. Journal of Chemical Technology and Metallurgy 52(5), 825-835.
  • 23. Zubar RA, Alo AO. 2019. Grey Level Co-occurrence Matrix (GLCM) Based Second-Order Statistics for Image Texture Analysis. Science and Engineering Investigations 8(93), 64-73.
  • 24. Hladnik A, Lazar M. 2011. Paper and Board Surface Roughness Characterization Using Laser Profilometry and Grey Level Co-occurrence matrix. Nordic Pulp and Paper Research Journal 26(1), 99-105.
  • 25. Milošević R, Kašiković N, Novaković D, Jurić I, Stančić M. 2014. GLCM Print Mottle Assessment of Ink Printed Billboard. Journal of Printing Science and Technology 5(5), 339-346.
  • 26. Toshikj E, Mangovska B. 2012. Analyses of Some Undesirable Effects in Industrial Exhaust Dyeing of Knitted Fabrics of Different Grades of Cotton with Reactive Dyes. Tekstil 61(1-6), 41-47.
  • 27. Toshikj E, Jordanov I, Demboski G, Mangovska B. 2016. Influence of Multiple Laundering on Cotton Shirts Properties. Tekstil ve Konfeksiyon 26(4), 393-399.

Textile Sublimation Printing: Impact of Total Ink Limiting Level and Sublimation Transfer Paper on Black Print Quality

Year 2023, Volume: 33 Issue: 4, 366 - 374, 31.12.2023
https://doi.org/10.32710/tekstilvekonfeksiyon.1145260

Abstract

The different sublimation transfer paper was printed in black color with total ink limiting levels, from 100 % to 400 %, using an ink jet printing system with the CMYK color system. Then the test image was transferred to fabric using the sublimation printing process. The ink jet printer was installed with sublimation dye. Color strength, CIELab color coordinate, color difference ΔE*, and GLCM (grey level co-occurrence matrix) image processing method were used for analyzing print quality. The significant change in print quality is caused by the sublimation transfer paper, resulting in a medium color difference noticeable to the human eye, while the total ink limiting level for printing sublimation transfer paper did not cause a significant change in print quality. The print with the maximum color strength is obtained with the 270 % total ink limiting level. The color difference between prints obtained with lighter sublimation transfer paper with a higher transfer rate printed with 100 % and 270 % total ink limiting levels was less than 1, suggesting a color difference undetectable to the human eye. Considering the importance of ink in terms of costs in businesses, the optimal total ink limiting level for printing sublimation transfer paper and achieving good print quality was 100 %. The total ink limiting level for printing sublimation transfer paper is useful for saving money on ink, so good print quality will be reached at a lower total ink limiting level.

References

  • 1. Kašiković N, Novaković D, Karlovic I, Vladić G. 2012. Influence of Ink Layers on the Quality of Ink Jet Printed Textile Materials. Textile ve Konfekiyon 22(2), 115-124.
  • 2. Golja B, Forte Tavčer P. 2016. Textile Functionalisation by Printing Fragrant, Antimicrobial, and Flame-Retardant Microcapsules. Tekstilec 59(4), 278-288.
  • 3. Ružičić B, Stepanić M, Kasiković N, Majnarić I. 2015. The Influence of Thermal Load on the Print Quality of Screen Printed Knitted Fabric. Advanced technologies 4(1), 78-83.
  • 4. Boh Podgornik B, Šandić S, Kert M. 2021. Microencapsulation for Functional Textile Coatings with Emphasis on Biodegradability-A Systematic Review. Coatings 11(11), 1371.
  • 5. El-Halwagy AA, El-Sayad SH, El-Molla MM. 2001. Sublimation Transfer Printing of Cotton and Wool Fabrics. Macromolecular Materials and Engineering 286(10), 618-623.
  • 6. Özgüney TA, Seçim P, Demir A, Gülümser, Özdogan E. 2015. Ecological Printing of Madder Over Various Natural Fibres. Textile ve Konfekiyon 25(2), 166-171.
  • 7. Tavčer Forte P, Štular D, Ahtik J. 2013. Digital Printing of Anaglyph Onto Textile. Textile ve Konfekiyon 23(4), 381-386.
  • 8. Stančić M, Grujić D, Kašiković N, Novaković D, Ružičić B, Milošević R. 2015. Influence of Washing Process and the Perspiration Effects on the Qualities of Printed Textile Substrates. Tekstilec 58(2), 135-142.
  • 9. Kalendraite B, Krisciunaite J, Mikucioniene D. 2021. Influence of Sublimation Process on Air Permeability and water Absorptio Dynamics. International Journal of Clothing Science and Technology 33(6), 863-872.
  • 10. Stojanović S, Grešak J, Trajović D, Ćirković N. 2020. Influence of Sublimation Transfer Printing on Alterations in the Structural and Physical Properties of Knitted Fabrics. Coloration Technology 137(2), 108-122.
  • 11. Kanik M, Bayari HA. 2003. Effect of Weight Reduction Process on Printing Properties of Polyester Fabrics. Coloration Technology 199(5), 264-268.
  • 12. Özomay M, Özomay Z. 2021. The Effect of Temperature and Time Variables on Printing Quality in Sublimation Transfer Printing on Nylon and Polyester Fabric. European Journal of Science and Technology 23, 882-891.
  • 13. Cie C. 2015. Ink Jet Textile Printing. Oxford: Woodhead Publishing.
  • 14. Sharma A. 2010. Evaluation of Ink Optimization Technology in Offset Color Printing. Journal of Imaging Science and Technology 54(6), 0605041-06050413.
  • 15. Kumar AJ, Kumar SM. 2021. Optimisation of the Sublimation Textile Printing Process Using the Taguchi Method. FIBRES & TEXTILES in Eastern Europe 29(1/145), 75-79.
  • 16. Xiumei L, Zhiqiang C, Rongfeng L, Fushou L, Jiyou H. 2017. CN107435275B. Beijing, China.
  • 17. Kumar R. 2021. Dynamic of Sublimation Printing. International Journal of Trend in Scientific Research and Development 5(6), 397-401.
  • 18. Stojanović S, Grešak J, Trajković D. 2021. Compression Properties of Knitted Fabrics Printed by Sublimation Transfer Printing Technique. Advanced Technologies 10(1), 46-53.
  • 19. Uppuluri A. 2022, May 25. GLCM Texture Feature. https://ww2.mathworks.cn/matlabcentral/fileexchange/22187-glcm-texture-features?s_tid=FX_rc1_behav
  • 20. Shedd WM, Jose DB, Diƶier JG. 2008. US2008/0229962A1. Alexandria, Virginia.
  • 21. Stančić M, Kasiković N, Novaković D, Milošević R, Grujić D. 2013. Thermal Load Effect on Print Quality of Ink-Jet Printed Textile Materials. Journal of Graphic Engineering and Design 4(2), 27-33.
  • 22. Vojčić Đ, Ružičić B. 2017. The Influence of Washing Treatment and Macro Non-Uniformity on Color Reproduction of Screen Printed Cotton Knitted Fabrics. Journal of Chemical Technology and Metallurgy 52(5), 825-835.
  • 23. Zubar RA, Alo AO. 2019. Grey Level Co-occurrence Matrix (GLCM) Based Second-Order Statistics for Image Texture Analysis. Science and Engineering Investigations 8(93), 64-73.
  • 24. Hladnik A, Lazar M. 2011. Paper and Board Surface Roughness Characterization Using Laser Profilometry and Grey Level Co-occurrence matrix. Nordic Pulp and Paper Research Journal 26(1), 99-105.
  • 25. Milošević R, Kašiković N, Novaković D, Jurić I, Stančić M. 2014. GLCM Print Mottle Assessment of Ink Printed Billboard. Journal of Printing Science and Technology 5(5), 339-346.
  • 26. Toshikj E, Mangovska B. 2012. Analyses of Some Undesirable Effects in Industrial Exhaust Dyeing of Knitted Fabrics of Different Grades of Cotton with Reactive Dyes. Tekstil 61(1-6), 41-47.
  • 27. Toshikj E, Jordanov I, Demboski G, Mangovska B. 2016. Influence of Multiple Laundering on Cotton Shirts Properties. Tekstil ve Konfeksiyon 26(4), 393-399.
There are 27 citations in total.

Details

Primary Language English
Subjects Wearable Materials
Journal Section Articles
Authors

Emilija Toshikj 0000-0001-6685-4795

Bojan Prangoski This is me 0000-0002-4944-6826

Early Pub Date January 1, 2024
Publication Date December 31, 2023
Submission Date July 19, 2022
Acceptance Date September 13, 2022
Published in Issue Year 2023 Volume: 33 Issue: 4

Cite

APA Toshikj, E., & Prangoski, B. (2023). Textile Sublimation Printing: Impact of Total Ink Limiting Level and Sublimation Transfer Paper on Black Print Quality. Textile and Apparel, 33(4), 366-374. https://doi.org/10.32710/tekstilvekonfeksiyon.1145260

No part of this journal may be reproduced, stored, transmitted or disseminated in any forms or by any means without prior written permission of the Editorial Board. The views and opinions expressed here in the articles are those of the authors and are not the views of Tekstil ve Konfeksiyon and Textile and Apparel Research-Application Center.