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Year 2012, Volume: 22 Issue: 2, 115 - 124, 29.06.2012

Abstract

References

  • 1. Novaković D, Kašiković N, Vladić G, 2010, “Integrating Internet application in to the workflow for customization of textile products”, International Joint Conference on Environment and Light Industry Technologies, Budapest, Hungary, pp.: 471 – 476.
  • 2. Owen P, 2003, “Digital printing: A world of opportunity from design to production”, AATCC Review, 3 (9), pp.: 10-12.
  • 3. Xue C.H, Shi M.M, Chen H.Z, 2006, “Preparation and application of nanoscale micro emulsion as binder for fabric inkjet printing”, Colloids and Surfaces A: Physicochemical. Eng. Aspects, 287, pp.:147–152.
  • 4. Barashkov N. N, Liu R, 2001, “Fluorescent Nanocolorants Based on Dye-Packaging Technology for Ink Jet Application”, NIP17: International Conference on Digital Printing Technologies, Fort Lauderdale, Florida; September 2001, pp.: 878-880.
  • 5. Leelajariyakul S, Noguchi H, Kiatkamjornwong S, 2008, “Surface-modified and micro-encapsulated pigmented inks for ink jet printing on textile fabrics”, Progress in Organic Coatings, 62, pp.: 145–161.
  • 6. Hu Z, Xue M, Zhang Q, Sheng Q, Liu Y, 2008, “Nanocolorants: A novel class of colorants, the preparation and performance characterization”, Dyes and Pigments, 76, pp.: 173-178. 7. Novaković D, Kašiković N, Zeljković Ž, Agić D, Gojo M, 2010, “Thermo graphic analysis of thermal effects on the change of colour differences on the digitally printed textile materials”, Tekstil, Vol. 59 (7), pp.: 297-306.
  • 8. Bankvall C, 1973, “Heat Transfer in Fibrous Material”, Journal of Testing and Evaluation, 1(3), pp.: 235–243.
  • 9. Bomberg M, Klarsfeld S, 1983, “Semi-Empirical Model of Heat Transfer in Dry Mineral Fiber Insulations”, Journal of Thermal Insulation, 6 (1), pp.: 157–173.
  • 10. Mao N, Russell S.J, 2007, “The Thermal Insulation Properties of Spacer Fabrics with a Mechanically Integrated Wool Fiber Surface”, Textile Research Journal, 77 (12), pp.: 914-922.
  • 11. Michalak M, Felczak M, Więcek B, 2009, “Evaluation of the Thermal Parameters of Textile Materials Using the Thermographic Methods”, Fibres & Textiles In Eastern Europe, 17 (3), pp.: 84-89. 12. Herascu N, Simileanu M, Radvan R, 2008, “Color changes in the artwork materials aged by UV radiation”, Romanian Reports in Physics, 60 (1), pp.: 95– 103. TEKSTİL ve KONFEKSİYON 2/2012 123
  • 13. Morent R, De Geyter N, Verschuren J, De Clerck K, Kiekens P, Leys C, 2008, “Non-thermal plasma treatment of textiles”, Surface and Coatings Technology, 202 (14), pp.: 3427-3449.
  • 14. Zhang C, Fang K, 2009, “Surface modification of polyester fabrics for inkjet printing with atmospheric-pressure air/Ar plasma”, Surface and Coatings Technology, 203 (14), pp.:2058-2063.
  • 15. Özerdem Yavaş A, Özgüney AT, Çay A, Eser B, 2011, “A study on the process parameters of discharge printing of cotton fabrics”, Tekstil ve Konfeksiyon, 21 (4), pp.: 349-355.
  • 16. Minkina W, 2004, “Thermovision Measurements – Instruments and Methods”, Publishing Office of Częstochowa University of Technology, Częstochowa (in Polish). 17. Madura H, 2004, “Thermovision Measurements in Practice”, Measurement, Automation, Control Publishers, Warsaw, (in Polish).
  • 18. Dudzik S, 2009, “A simple method for defect area detection using active thermography”, Opto−Electronics Review, 17 (4), pp.: 338–344.
  • 19. Rogalski A, 2000, “Infrared Detectors”, Gordon and Breach Science Publishers, Amsterdam.
  • 20. Dudzik S, 2003, “Termolab – a digital measurement system for the thermal image processing, uses a universal matrix interface”, Proc. 35th Inter−University Conf. of Metrologists MKM'03, Cracow, pp.: 95–98 (in Polish).
  • 21. Dudzik S, 2005, “Analysis of the influence of cross−correlation coefficient between the input variables of the measurement model on the uncertainty of the temperature determination by means an infrared camera”, Proc. 37th Inter−University Conf. of Metrologists MKM’05, Zielona Góra, pp.: 195–203 (in Polish).
  • 22. Yang Y, Naaranib V, 2004, “Effect of steaming conditions on colour and consistency of ink-jet printed cotton using reactive dyes”, Coloration Technology, 120 (3), pp.: 127-131.
  • 23. Bozdoğan F, Tiyek I, Özçelik Kayseri G, 2010, “A study on the investigation of the relationship between the inner structure and the physical properties of different lyocell fibers”, Tekstil ve Konfeksiyon, 20 (2), pp.: 87-92.

INFLUENCE OF INK LAYERS ON THE QUALITY OF INK JET PRINTED TEXTILE MATERIALS

Year 2012, Volume: 22 Issue: 2, 115 - 124, 29.06.2012

Abstract

This paper will discuss research concerning the influence of the number of ink layers deposited by ink jet for textile printing. With the aim to establish the optimal number of layers as to achieve good quality prints, it discusses the good colourfastness during longer time period and exposure to different environmental factors including temperature, light etc. Three typical materials with the same raw material compositions, but different fabric weight and thread count were chosen and printed with digital ink jet technology. Materials were printed with variations in the ink layers number and the correlation between K/S factor and number of applied ink layers was determined after the printing process. Upon finished printing process, the samples were treated with heat, light and other simulated environmental influences in line with the appropriate international standards. The changes were detected by common visual ranking methods (gray scale and blue wool reference scale) as well the spectrophotometric measurements for obtaining spectral data of the colourfastness and staining, what was followed by additional testing of the heating element with thermo vision camera. Microscopic view of the changes on the printed surfaces upon exposing them to different simulated factors was obtained by SEM microscope. It can be concluded that increase of printed ink layers will lead to a better quality of final product in terms of resistance to various environment influences. This research offers insight in the influence of one parameter in textile materials printing process on longevity of flag products, which can also be applied to any other product printed on polyester material. 

References

  • 1. Novaković D, Kašiković N, Vladić G, 2010, “Integrating Internet application in to the workflow for customization of textile products”, International Joint Conference on Environment and Light Industry Technologies, Budapest, Hungary, pp.: 471 – 476.
  • 2. Owen P, 2003, “Digital printing: A world of opportunity from design to production”, AATCC Review, 3 (9), pp.: 10-12.
  • 3. Xue C.H, Shi M.M, Chen H.Z, 2006, “Preparation and application of nanoscale micro emulsion as binder for fabric inkjet printing”, Colloids and Surfaces A: Physicochemical. Eng. Aspects, 287, pp.:147–152.
  • 4. Barashkov N. N, Liu R, 2001, “Fluorescent Nanocolorants Based on Dye-Packaging Technology for Ink Jet Application”, NIP17: International Conference on Digital Printing Technologies, Fort Lauderdale, Florida; September 2001, pp.: 878-880.
  • 5. Leelajariyakul S, Noguchi H, Kiatkamjornwong S, 2008, “Surface-modified and micro-encapsulated pigmented inks for ink jet printing on textile fabrics”, Progress in Organic Coatings, 62, pp.: 145–161.
  • 6. Hu Z, Xue M, Zhang Q, Sheng Q, Liu Y, 2008, “Nanocolorants: A novel class of colorants, the preparation and performance characterization”, Dyes and Pigments, 76, pp.: 173-178. 7. Novaković D, Kašiković N, Zeljković Ž, Agić D, Gojo M, 2010, “Thermo graphic analysis of thermal effects on the change of colour differences on the digitally printed textile materials”, Tekstil, Vol. 59 (7), pp.: 297-306.
  • 8. Bankvall C, 1973, “Heat Transfer in Fibrous Material”, Journal of Testing and Evaluation, 1(3), pp.: 235–243.
  • 9. Bomberg M, Klarsfeld S, 1983, “Semi-Empirical Model of Heat Transfer in Dry Mineral Fiber Insulations”, Journal of Thermal Insulation, 6 (1), pp.: 157–173.
  • 10. Mao N, Russell S.J, 2007, “The Thermal Insulation Properties of Spacer Fabrics with a Mechanically Integrated Wool Fiber Surface”, Textile Research Journal, 77 (12), pp.: 914-922.
  • 11. Michalak M, Felczak M, Więcek B, 2009, “Evaluation of the Thermal Parameters of Textile Materials Using the Thermographic Methods”, Fibres & Textiles In Eastern Europe, 17 (3), pp.: 84-89. 12. Herascu N, Simileanu M, Radvan R, 2008, “Color changes in the artwork materials aged by UV radiation”, Romanian Reports in Physics, 60 (1), pp.: 95– 103. TEKSTİL ve KONFEKSİYON 2/2012 123
  • 13. Morent R, De Geyter N, Verschuren J, De Clerck K, Kiekens P, Leys C, 2008, “Non-thermal plasma treatment of textiles”, Surface and Coatings Technology, 202 (14), pp.: 3427-3449.
  • 14. Zhang C, Fang K, 2009, “Surface modification of polyester fabrics for inkjet printing with atmospheric-pressure air/Ar plasma”, Surface and Coatings Technology, 203 (14), pp.:2058-2063.
  • 15. Özerdem Yavaş A, Özgüney AT, Çay A, Eser B, 2011, “A study on the process parameters of discharge printing of cotton fabrics”, Tekstil ve Konfeksiyon, 21 (4), pp.: 349-355.
  • 16. Minkina W, 2004, “Thermovision Measurements – Instruments and Methods”, Publishing Office of Częstochowa University of Technology, Częstochowa (in Polish). 17. Madura H, 2004, “Thermovision Measurements in Practice”, Measurement, Automation, Control Publishers, Warsaw, (in Polish).
  • 18. Dudzik S, 2009, “A simple method for defect area detection using active thermography”, Opto−Electronics Review, 17 (4), pp.: 338–344.
  • 19. Rogalski A, 2000, “Infrared Detectors”, Gordon and Breach Science Publishers, Amsterdam.
  • 20. Dudzik S, 2003, “Termolab – a digital measurement system for the thermal image processing, uses a universal matrix interface”, Proc. 35th Inter−University Conf. of Metrologists MKM'03, Cracow, pp.: 95–98 (in Polish).
  • 21. Dudzik S, 2005, “Analysis of the influence of cross−correlation coefficient between the input variables of the measurement model on the uncertainty of the temperature determination by means an infrared camera”, Proc. 37th Inter−University Conf. of Metrologists MKM’05, Zielona Góra, pp.: 195–203 (in Polish).
  • 22. Yang Y, Naaranib V, 2004, “Effect of steaming conditions on colour and consistency of ink-jet printed cotton using reactive dyes”, Coloration Technology, 120 (3), pp.: 127-131.
  • 23. Bozdoğan F, Tiyek I, Özçelik Kayseri G, 2010, “A study on the investigation of the relationship between the inner structure and the physical properties of different lyocell fibers”, Tekstil ve Konfeksiyon, 20 (2), pp.: 87-92.
There are 20 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Nemanja Kašıkovıć

Dragoljub Novakovıć This is me

İgor Karlovıć This is me

Gojko Vladıć This is me

Publication Date June 29, 2012
Submission Date October 17, 2011
Acceptance Date March 2, 2012
Published in Issue Year 2012 Volume: 22 Issue: 2

Cite

APA Kašıkovıć, N., Novakovıć, D., Karlovıć, İ., Vladıć, G. (2012). INFLUENCE OF INK LAYERS ON THE QUALITY OF INK JET PRINTED TEXTILE MATERIALS. Textile and Apparel, 22(2), 115-124.

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