THE INFLUENCE OF WASHING TREATMENT ON SCREEN PRINTED TEXTILE SUBSTRATES
Year 2014,
Volume: 24 Issue: 1, 96 - 104, 01.06.2014
Mladen Stancıc
Nemanja Kašıkovıć
Dragoljub Novakovıc
Ivana Dojcınıvıc
Gojko Vladıc
Miroslav Dragıc
Abstract
During exploitation period printed textile products are usually exposed to various influences. One of the most common influence is a washing treatment. The washing treatment causes modification of textile fibres and change of colours reproduction on materials. This paper presents the research of influence of washing treatment on print quality parameters of screen printed textile, i.e. cotton substrates. Besides the influence of series of washing treatments, the influences of printing screen mesh count and characteristics of printed material was also considered. The research includes analysis of basic print quality attributes: colour reproduction and macro non-uniformity. The results of the research point out that increasing the number of washing treatments causes significant colour differences between treated and untreated samples. Colour differences caused by printing screen mesh count were also noticed, as well as the influence of the washing treatments and substrate characteristics influence on macro non-uniformity of printed samples
References
- 1. Novaković D, Kašiković N, Zeljković Ž, Agić D, Gojo M, 2010, “Thermographic analysis of thermal effects on the change of colour differences on the digitally printed textile materials”, Tekstil, 59 (7), pp.: 297-306.
- 2. Novaković D, Kašiković N, Vladić G, 2010, „Integrating internet application in to the workflow for costumisation of textile products”, Proceedings of International Joint Conference on Environmental and Light Industry Technologies, Budapest, Hungary, pp.: 471-476.
- 3. Kašiković N, Novaković D, Karlović I, Vladić G, 2012, “Influence of ink layers on the quality of ink jet printed textile materials”, Tekstil ve Konfeksiyon, 22 (2), pp.: 115-124.
- 4. Kašiković N, 2012, „Razvoj modela praćenja procesnih parametara štampe tekstilnih materijala”, PhD Thesis, Faculty of technical sciences, Novi Sad, Serbia, pp.:10.
- 5. Kiatkamjornwong S, Putthimai P, Noguchi H, 2005, “Comparison of textile print quality between inkjet and screen printings”, Surface Coatings International Part B: Coatings Transactions, 88 (1),pp.: 25-34.
- 6. Onar Çatal D, Özgüney A T, Akçakoca Kumbasar E P, 2012, “The influence of rheological properties of the pretreatment thickeners on ink-jet printing quality”, Tekstil ve Konfeksiyon, 22 (4), pp.: 309-316.
- 7. Lee T M, Choi Y J, Nam S Y, You C W, Na D Y, Choi H C, Shin D Y, Kim K Y, Jung K I, 2008, “Color filter patterned by screen printing”, Thin Solid Films, 516 (21), pp.: 7875-7880.
- 8. Krebs F, Jørgensen M, Norrman K, Hagemann O, Alstrup J, Nielsen T, Fyenbo J, Larsen K, Kristensen J, 2009, “A complete process for production of flexible large area polymer solar cells entirely using screen printing - First public demonstration”, Solar Energy Materials and Solar Cells, 93 (4), pp.: 422- 441.
- 9. Stančić M, Novaković D, Tomić I, Karlović I, 2012, “Influence of substrate and screen thread count on reproduction of image elements in screen printing”, Acta Graphica, 23 (1-2), pp.: 1-12.
- 10. Szentgyörgyvölgy R, Borbèly A, 2011. “Printability of PVC and PS substrates by screen printing”, Óbuda University e-Bulletin, 2 (1), pp.: 293-300.
- 11. Ingram S, 1999, “Screen printing primer”, GATF Press, Sewickley, pp.: 99-110.
- 12. Pan J, Tonkay G, Quintero A, 1998, “Screen printing process design of experiments for fine line printing of thick film ceramic substrates”, Proceedings of International Symposium on Microelectronics, San Diego, California, USA, pp.: 264-269.
- 13. Phair J W, Lundberg M, Kaiser A, 2009, “ Leveling and thixotropic characteristics of concentrated zirconia inks for screen-printing”, Rheol Acta, 48 (2), pp.:121-133.
- 14. Novaković D, Pavlović Ž, Kašiković N, 2011, “Tehnike štampe - praktikum za vežbe”, Faculty of technical sciences, Novi Sad, Serbia, pp.:181.
- 15. Lam Y L, Kan C W, Yuen C W M, 2011, “Physical and chemical analysis of plasma-treated cotton fabric subjected to wrinkle-resistant finishing”, Cellulose, 18 (2), pp.: 493-503.
- 16. Kalantzi S, Mamma D, Kalogeris E, Kekos D, 2010, “Improved Properties of Cotton Fabrics Treated with Lipase and its Combination with Pectinase”, Fibres and Textiles in Eastern Europe, 18 (5), pp.: 86-92.
- 17. Tomšič B, Simončič B,Orel B, Černe L, Forte Tavčer P, Zorko M, Jerman I, Vilčnik A, Kovač J, 2008, “Sol–gel coating of cellulose fibres with antimicrobial and repellent properties”, Journal of Sol-Gel Science and Technology, 47 (1), pp.: 44-57.
- 18. Xiang W, Cai Z S, 2008, “Dye Behavior of Cationically Treated Silk”, Journal of Applied Polymer Science, 108 (2), pp.: 1005-1012.
- 19. Was- Gubala J, “The kinetics of colour change in textiles and fibres treated with detergent solutions Part I - Colour perception and fluorescence microscopy analysis”, Science and Justice, 49 (3), pp.: 165-169.
- 20. Bozic M, Díaz-González M, Tzanov T,Guebitz G M, Kokol V, “Voltametric monitoring of enzyme-mediated indigo reduction in the presence of various fibre materials”, Enzyme and Microbial Technology, 45(4), pp.: 317-323.
- 21. Nakpathom M, Somboon B, Narumol N, 2009, “Papain Enzymatic Degumming of Thai Bombyx mori Silk Fibers”, Journal of Microscopy Society of Thailand, 23 (1), pp.: 142-146.
- 22. Vilcnik A, Jerman I, Surca Vuk A, Kozelj M, Orel B,Tomsic B, Simoncic B, Kovac J, 2009, “Structural Properties and Antibacterial Effects of Hydrophobic and Oleophobic Sol-Gel Coatings for Cotton Fabrics”, Langmuir,25 (10), pp.: 5869-5880.
- 23. Chairat M, Darumas U, Bremnerc J B, Bangrakb P, 2010, „Dyeing of cotton yarn with the aqueous extract of the leaves of Eupatorium odoratum L. in Thailand and associated extract toxicity studies”, Coloration Technology, 127 (5), pp.:346-353.
- 24. Kočevar N T, 2006, “Kolorimetrijska analiza i vizuelna ocjena boja na dvobojnoj tkanini”, Tekstil, 55 (3), pp.: 127-134.
- 25. Majnarić I, Bolanča S, Golubović K, 2010, “Neke karakteristike transfernih folija načinjenih tehnikom mlaza tinte te njihov utjecaj na kvalitetu otisaka na pamučnoj tkanini”, Tekstil 59 (10), pp.: 456-462.
- 26. Novaković D, Karlović I, Pavlović Ž, Pešterac Č, 2008, “Reprodukciona tehnika- priručnik za vežbe”, Faculty of technical sciences, Novi Sad, Serbia, pp.:86.
- 27. Gabrijelčić H, Dimitrovski K, 2009, “Use of regression methods for determining the relation between theoretical–linear and spectrophotometrical colour values of bicolour woven structures”, Coloration Technology, 125 (2), pp.: 74-85.
- 28. Gabrijelčić H., Dimitrovski K, 2007, “Numerički i grafički prikaz i usporedba dvobojnih tkanina s različitim modelima boja”, Tekstil, 56 (4), pp.: 209-220.
- 29. Moussa A, Dupont D, Steenb D, Zengb X, 2008, “Colour change as a result of textile transformations”, Coloration Technology, 124 (4), pp.: 234-242.
- 30. FedorovskayaE A, Blommaert F, De Ridder H, 1993, “Perceptual quality of colour images of natural scenes transformed into CIELUV colour space”, IS&T & SID's Colour Imaging Conference Proceedings, Scottsdale, Arizona, USA, pp.: 37-40.
- 31. De Ridder H, 1996, “Naturalness and Image Quality: Saturation and lightness variation in colour images”, Journal of Imaging Science and Technology, 40 (6),pp.: 487-493.
- 32. Fedorovskaya E A, De Ridder H, Blommaert F, 1997, “Chroma variations and perceived quality of colour images of natural scenes”, Color Research and Application, 22 (2), pp.: 96-110.
- 33. Pedersen M, Bonnier N, Hardeberg J, Albregtsen F, 2009, “Attributes of a new image quality model for color prints”, Proceedings of Color Imaging Conference, Albuquerque, New Mexico, USA, pp.: 204-209.
- 34. DhopadeA, 2009, “Image quality assessemnet according to ISO 13660 and ISO 19751”, Test Targets 9.0, Published by RIT School of Print Media, Rochester, New York, pp.: 43-50.
- 35. Dalal E, Rasmussen D, Nakaya F, Crean P, Sato M, 1998, “Evaluating the overall image quality of hardcopy output”,Proceedings of Image Processing, Image Quality, Image Capture, Systems Conference, Portland, Oregon, USA, pp.: 169-173.
- 36. Kipman Y, 1998, “Image Quality Metrics for Printers and Media”, Proceedings of IS&T’s PICS Conference, Nashua, New Hampshire,USA, pp.: 183-187.
- 37. Lindberg S, 2004, “Perceptual determinants of print quality”, PhD thesis, Department of Psychology Stockholm University, Stockholm, pp.: 11-21.
- 38. Engeldrum PG, 2004, “A Theory of Image Quality: The Image Quality Circle”, Journal of Imaging Science and Technology, 48 (5), pp.: 446-456.
- 39. International Organization for Standardization, 1989. ISO 105- C01 - Textiles - Tests for colour fastness - Part C01: Colour fastness to washing. Geneva.
- 40. Muck T, Hladnik A, Stanić M, 2009, “Analiza tiskovne kakovosti z orodjem ImageJ = Analysis of print quality with ImageJ”, Zbornik Prispevkov, Naravoslovnotehniška fakulteta, Oddelek za tekstilstvo, Ljubljana,pp.: 45-49.
- 41. 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.
YIKAMA İŞLEMİNİN ŞABLON BASKILI TEKSTİL MALZEMELERİNE ETKİSİ
Year 2014,
Volume: 24 Issue: 1, 96 - 104, 01.06.2014
Mladen Stancıc
Nemanja Kašıkovıć
Dragoljub Novakovıc
Ivana Dojcınıvıc
Gojko Vladıc
Miroslav Dragıc
References
- 1. Novaković D, Kašiković N, Zeljković Ž, Agić D, Gojo M, 2010, “Thermographic analysis of thermal effects on the change of colour differences on the digitally printed textile materials”, Tekstil, 59 (7), pp.: 297-306.
- 2. Novaković D, Kašiković N, Vladić G, 2010, „Integrating internet application in to the workflow for costumisation of textile products”, Proceedings of International Joint Conference on Environmental and Light Industry Technologies, Budapest, Hungary, pp.: 471-476.
- 3. Kašiković N, Novaković D, Karlović I, Vladić G, 2012, “Influence of ink layers on the quality of ink jet printed textile materials”, Tekstil ve Konfeksiyon, 22 (2), pp.: 115-124.
- 4. Kašiković N, 2012, „Razvoj modela praćenja procesnih parametara štampe tekstilnih materijala”, PhD Thesis, Faculty of technical sciences, Novi Sad, Serbia, pp.:10.
- 5. Kiatkamjornwong S, Putthimai P, Noguchi H, 2005, “Comparison of textile print quality between inkjet and screen printings”, Surface Coatings International Part B: Coatings Transactions, 88 (1),pp.: 25-34.
- 6. Onar Çatal D, Özgüney A T, Akçakoca Kumbasar E P, 2012, “The influence of rheological properties of the pretreatment thickeners on ink-jet printing quality”, Tekstil ve Konfeksiyon, 22 (4), pp.: 309-316.
- 7. Lee T M, Choi Y J, Nam S Y, You C W, Na D Y, Choi H C, Shin D Y, Kim K Y, Jung K I, 2008, “Color filter patterned by screen printing”, Thin Solid Films, 516 (21), pp.: 7875-7880.
- 8. Krebs F, Jørgensen M, Norrman K, Hagemann O, Alstrup J, Nielsen T, Fyenbo J, Larsen K, Kristensen J, 2009, “A complete process for production of flexible large area polymer solar cells entirely using screen printing - First public demonstration”, Solar Energy Materials and Solar Cells, 93 (4), pp.: 422- 441.
- 9. Stančić M, Novaković D, Tomić I, Karlović I, 2012, “Influence of substrate and screen thread count on reproduction of image elements in screen printing”, Acta Graphica, 23 (1-2), pp.: 1-12.
- 10. Szentgyörgyvölgy R, Borbèly A, 2011. “Printability of PVC and PS substrates by screen printing”, Óbuda University e-Bulletin, 2 (1), pp.: 293-300.
- 11. Ingram S, 1999, “Screen printing primer”, GATF Press, Sewickley, pp.: 99-110.
- 12. Pan J, Tonkay G, Quintero A, 1998, “Screen printing process design of experiments for fine line printing of thick film ceramic substrates”, Proceedings of International Symposium on Microelectronics, San Diego, California, USA, pp.: 264-269.
- 13. Phair J W, Lundberg M, Kaiser A, 2009, “ Leveling and thixotropic characteristics of concentrated zirconia inks for screen-printing”, Rheol Acta, 48 (2), pp.:121-133.
- 14. Novaković D, Pavlović Ž, Kašiković N, 2011, “Tehnike štampe - praktikum za vežbe”, Faculty of technical sciences, Novi Sad, Serbia, pp.:181.
- 15. Lam Y L, Kan C W, Yuen C W M, 2011, “Physical and chemical analysis of plasma-treated cotton fabric subjected to wrinkle-resistant finishing”, Cellulose, 18 (2), pp.: 493-503.
- 16. Kalantzi S, Mamma D, Kalogeris E, Kekos D, 2010, “Improved Properties of Cotton Fabrics Treated with Lipase and its Combination with Pectinase”, Fibres and Textiles in Eastern Europe, 18 (5), pp.: 86-92.
- 17. Tomšič B, Simončič B,Orel B, Černe L, Forte Tavčer P, Zorko M, Jerman I, Vilčnik A, Kovač J, 2008, “Sol–gel coating of cellulose fibres with antimicrobial and repellent properties”, Journal of Sol-Gel Science and Technology, 47 (1), pp.: 44-57.
- 18. Xiang W, Cai Z S, 2008, “Dye Behavior of Cationically Treated Silk”, Journal of Applied Polymer Science, 108 (2), pp.: 1005-1012.
- 19. Was- Gubala J, “The kinetics of colour change in textiles and fibres treated with detergent solutions Part I - Colour perception and fluorescence microscopy analysis”, Science and Justice, 49 (3), pp.: 165-169.
- 20. Bozic M, Díaz-González M, Tzanov T,Guebitz G M, Kokol V, “Voltametric monitoring of enzyme-mediated indigo reduction in the presence of various fibre materials”, Enzyme and Microbial Technology, 45(4), pp.: 317-323.
- 21. Nakpathom M, Somboon B, Narumol N, 2009, “Papain Enzymatic Degumming of Thai Bombyx mori Silk Fibers”, Journal of Microscopy Society of Thailand, 23 (1), pp.: 142-146.
- 22. Vilcnik A, Jerman I, Surca Vuk A, Kozelj M, Orel B,Tomsic B, Simoncic B, Kovac J, 2009, “Structural Properties and Antibacterial Effects of Hydrophobic and Oleophobic Sol-Gel Coatings for Cotton Fabrics”, Langmuir,25 (10), pp.: 5869-5880.
- 23. Chairat M, Darumas U, Bremnerc J B, Bangrakb P, 2010, „Dyeing of cotton yarn with the aqueous extract of the leaves of Eupatorium odoratum L. in Thailand and associated extract toxicity studies”, Coloration Technology, 127 (5), pp.:346-353.
- 24. Kočevar N T, 2006, “Kolorimetrijska analiza i vizuelna ocjena boja na dvobojnoj tkanini”, Tekstil, 55 (3), pp.: 127-134.
- 25. Majnarić I, Bolanča S, Golubović K, 2010, “Neke karakteristike transfernih folija načinjenih tehnikom mlaza tinte te njihov utjecaj na kvalitetu otisaka na pamučnoj tkanini”, Tekstil 59 (10), pp.: 456-462.
- 26. Novaković D, Karlović I, Pavlović Ž, Pešterac Č, 2008, “Reprodukciona tehnika- priručnik za vežbe”, Faculty of technical sciences, Novi Sad, Serbia, pp.:86.
- 27. Gabrijelčić H, Dimitrovski K, 2009, “Use of regression methods for determining the relation between theoretical–linear and spectrophotometrical colour values of bicolour woven structures”, Coloration Technology, 125 (2), pp.: 74-85.
- 28. Gabrijelčić H., Dimitrovski K, 2007, “Numerički i grafički prikaz i usporedba dvobojnih tkanina s različitim modelima boja”, Tekstil, 56 (4), pp.: 209-220.
- 29. Moussa A, Dupont D, Steenb D, Zengb X, 2008, “Colour change as a result of textile transformations”, Coloration Technology, 124 (4), pp.: 234-242.
- 30. FedorovskayaE A, Blommaert F, De Ridder H, 1993, “Perceptual quality of colour images of natural scenes transformed into CIELUV colour space”, IS&T & SID's Colour Imaging Conference Proceedings, Scottsdale, Arizona, USA, pp.: 37-40.
- 31. De Ridder H, 1996, “Naturalness and Image Quality: Saturation and lightness variation in colour images”, Journal of Imaging Science and Technology, 40 (6),pp.: 487-493.
- 32. Fedorovskaya E A, De Ridder H, Blommaert F, 1997, “Chroma variations and perceived quality of colour images of natural scenes”, Color Research and Application, 22 (2), pp.: 96-110.
- 33. Pedersen M, Bonnier N, Hardeberg J, Albregtsen F, 2009, “Attributes of a new image quality model for color prints”, Proceedings of Color Imaging Conference, Albuquerque, New Mexico, USA, pp.: 204-209.
- 34. DhopadeA, 2009, “Image quality assessemnet according to ISO 13660 and ISO 19751”, Test Targets 9.0, Published by RIT School of Print Media, Rochester, New York, pp.: 43-50.
- 35. Dalal E, Rasmussen D, Nakaya F, Crean P, Sato M, 1998, “Evaluating the overall image quality of hardcopy output”,Proceedings of Image Processing, Image Quality, Image Capture, Systems Conference, Portland, Oregon, USA, pp.: 169-173.
- 36. Kipman Y, 1998, “Image Quality Metrics for Printers and Media”, Proceedings of IS&T’s PICS Conference, Nashua, New Hampshire,USA, pp.: 183-187.
- 37. Lindberg S, 2004, “Perceptual determinants of print quality”, PhD thesis, Department of Psychology Stockholm University, Stockholm, pp.: 11-21.
- 38. Engeldrum PG, 2004, “A Theory of Image Quality: The Image Quality Circle”, Journal of Imaging Science and Technology, 48 (5), pp.: 446-456.
- 39. International Organization for Standardization, 1989. ISO 105- C01 - Textiles - Tests for colour fastness - Part C01: Colour fastness to washing. Geneva.
- 40. Muck T, Hladnik A, Stanić M, 2009, “Analiza tiskovne kakovosti z orodjem ImageJ = Analysis of print quality with ImageJ”, Zbornik Prispevkov, Naravoslovnotehniška fakulteta, Oddelek za tekstilstvo, Ljubljana,pp.: 45-49.
- 41. 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.