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REAKTİF BOYARMADDELERLE BOYANMIŞ PAMUKLU KUMAŞLARIN RENK ÖZELLİKLERİNİN CIELAB VE HUNTER SİSTEMLERİ KULLANILARAK FARKLI AYDINLATICILAR ALTINDA DEĞERLENDİRİLMESİ

Year 2010, Volume: 20 Issue: 2, 145 - 154, 01.12.2010

Abstract

Bu çalışmada reaktif boyarmaddeler ile boyanmış pamuklu kumaşların renk özellikleri D65, A ve F11 aydınlatıcıları altında CIELAB ve Hunter sistemleri ile hesaplanarak değerlendirilmiştir. Kumaş numuneleri dört farklı reaktif boyarmadde (siyah, sarı, kırmızı ve mavi) ile on ayrı boyama konsantrasyonunda boyanmış ve boyanmış numunelerin renk koordinatları bir reflektans spektrofotometresi ile ölçülmüştür. Sonuç boyamaların renk koordinatları ve renk farklılıkları CIELAB ve Hunter sistemlerine göre hesaplanmış ve elde edilen sonuçlar boyamaların renkleri ile ilişkili olarak tartışılmıştır. CIELAB ve Hunter sistemlerine göre hesaplanan renk sonuçlarının elde edilen renklerin farklılıklarına göre hassas olduğu bulunmuştur. Renk koordinatları Hunter sistemine göre hesaplandığında siyah, sarı, kırmızı ve mavi renklerin aydınlatıcı seçimine hassas olduğu görülmüştür. Hesaplanan en yüksek renk koordinatları farkı sarı renkte elde edilmiştir

References

  • 1. Berns, R. S., 2000, “Chapter 1: Defining Color”, Billmeyer and Saltzman’s Principles of Color Technology, 3rd Edition, John Wiley & Sons, Inc., New York, pp: 1-29.
  • 2. Perkins, W.S., 1996, “Color”, Textile Coloration and Finishing, Carolina Academic Press, Durham, pp: 73-97.
  • 3. Derby Jr., R.E., 1983, “Color, Color Measurement and Colorant Formulation in the Textile Industry”, Color Technology in the Textile Industry, Celikiz, G., Kuehni, R.G., (Editors), AATCC, New Jersey, pp: 7-19.
  • 4. Aspland, J.R., 1993, “Chapter 15: Color, Color Measurement and Control, Textile Chemist and Colorist, Vol.25 (11), pp: 34-41.
  • 5. Epps, H., Major, C., and Cao, H., 2000, “A Practical Comparison of Color Measurements”, Chemist Colorist & American Dyestuff Reporter, Vol. 32(6), pp: 21-23.
  • 6. AATCC Technical Manual, 1995, Vol.70, p: 274.
  • 7. Brigeman, I., 1987, “The Nature of Light and Its Interaction with Matter”, Colour Physics for Industry, McDonald, R., (Editor), Society of Dyers and Colorists, Bradford, pp: 1-34.
  • 8. McLaren, K., 1987, “Colour Space, Colour Scales and Colour Difference”, Colour Physics for Industry, McDonald, R., (Editor), Society of Dyers and Colorists, Bradford, pp: 97-115.
  • 9. Hinks, D., Draper, S., and Che, Q., 2000, “Assessment of the Effect of Lighting Variability on Color Difference”, Textile Chemist Colorist & American Dyestuff Reporter, Vol.32 (6), pp: 16-20.
  • 10. Luo, M.R., and Hunt, R.W.G., 1998, “A Chromatic Adaptation Transform and a Colour Inconstancy Index”, Color Research and Application, Vol.23(3), pp: 154-158.
  • 11. Kuehni, R.G., 1999, “Why CIELAB Needs to be Replaced for Industrial Color Difference Calculation”, Textile Chemist and Colorist, Vol.31(6), pp: 11-15.
  • 12. Rys, P., and Zollinger, H., 1989, “Reactive Dye-Fibre Systems”, The Theory of Coloration of Textiles, 2nd Edition, Johnson, A., (Editor), Society of Dyers and Colourists, Bradford, pp: 428-476.
  • 13. Özgüney, T., Özkaya, K., and Özerdem, A., 2007, “Reaktif Boyalı Örgü Kumaşların Parça Baskıdaki Isıl İşlem Sonrasında Renk Değ- iştirme Eğilimlerinin İncelenmesi”, Tekstil ve Konfeksiyon, Vol.17 (3), pp: 192-199.
  • 14. Duran, K., Çay, A., and Atav, R., 2007, “Pamuklu Kumaşların Atkı-Çözgü Sıklığı ve Gözenekliliği ile Reaktif Boyamalarda Elde Edilen Renk Efektleri Arasındaki İlişki”, Tekstil ve Konfeksiyon, Vol.17 (1), pp: 52-58.

ASSESSMENT OF COLOUR PROPERTIES OF REACTIVE DYED COTTON FABRICS UNDER DIFFERENT ILLUMINANTS BY USING CIELAB AND HUNTER SYSTEMS

Year 2010, Volume: 20 Issue: 2, 145 - 154, 01.12.2010

Abstract

This paper focuses on the assessment of colour properties of reactive dyed cotton fabrics at four different shades under the illuminants of D65, A and F11 by using CIELAB and Hunter systems in computing. The fabric samples were dyed with four reactive dyes (black, yellow, red and navy) at ten different dyeing concentrations (% owf) and the colour coordinates of the dyed samples were measured by a reflectance spectrophotometer. Colour coordinates and colour differences of the resultant dyeings were calculated according to CIELAB and Hunter systems and the results were discussed in accordance with the shades obtained. The colour results which were calculated according to CIELAB and Hunter systems were found sensitive to the shade variations. Black, yellow, red, and navy shades were found sensitive to illuminant choice when the colour coordinates were calculated according to the Hunter system. The highest differences between the calculated colour coordinates were obtained at yellow shade

References

  • 1. Berns, R. S., 2000, “Chapter 1: Defining Color”, Billmeyer and Saltzman’s Principles of Color Technology, 3rd Edition, John Wiley & Sons, Inc., New York, pp: 1-29.
  • 2. Perkins, W.S., 1996, “Color”, Textile Coloration and Finishing, Carolina Academic Press, Durham, pp: 73-97.
  • 3. Derby Jr., R.E., 1983, “Color, Color Measurement and Colorant Formulation in the Textile Industry”, Color Technology in the Textile Industry, Celikiz, G., Kuehni, R.G., (Editors), AATCC, New Jersey, pp: 7-19.
  • 4. Aspland, J.R., 1993, “Chapter 15: Color, Color Measurement and Control, Textile Chemist and Colorist, Vol.25 (11), pp: 34-41.
  • 5. Epps, H., Major, C., and Cao, H., 2000, “A Practical Comparison of Color Measurements”, Chemist Colorist & American Dyestuff Reporter, Vol. 32(6), pp: 21-23.
  • 6. AATCC Technical Manual, 1995, Vol.70, p: 274.
  • 7. Brigeman, I., 1987, “The Nature of Light and Its Interaction with Matter”, Colour Physics for Industry, McDonald, R., (Editor), Society of Dyers and Colorists, Bradford, pp: 1-34.
  • 8. McLaren, K., 1987, “Colour Space, Colour Scales and Colour Difference”, Colour Physics for Industry, McDonald, R., (Editor), Society of Dyers and Colorists, Bradford, pp: 97-115.
  • 9. Hinks, D., Draper, S., and Che, Q., 2000, “Assessment of the Effect of Lighting Variability on Color Difference”, Textile Chemist Colorist & American Dyestuff Reporter, Vol.32 (6), pp: 16-20.
  • 10. Luo, M.R., and Hunt, R.W.G., 1998, “A Chromatic Adaptation Transform and a Colour Inconstancy Index”, Color Research and Application, Vol.23(3), pp: 154-158.
  • 11. Kuehni, R.G., 1999, “Why CIELAB Needs to be Replaced for Industrial Color Difference Calculation”, Textile Chemist and Colorist, Vol.31(6), pp: 11-15.
  • 12. Rys, P., and Zollinger, H., 1989, “Reactive Dye-Fibre Systems”, The Theory of Coloration of Textiles, 2nd Edition, Johnson, A., (Editor), Society of Dyers and Colourists, Bradford, pp: 428-476.
  • 13. Özgüney, T., Özkaya, K., and Özerdem, A., 2007, “Reaktif Boyalı Örgü Kumaşların Parça Baskıdaki Isıl İşlem Sonrasında Renk Değ- iştirme Eğilimlerinin İncelenmesi”, Tekstil ve Konfeksiyon, Vol.17 (3), pp: 192-199.
  • 14. Duran, K., Çay, A., and Atav, R., 2007, “Pamuklu Kumaşların Atkı-Çözgü Sıklığı ve Gözenekliliği ile Reaktif Boyamalarda Elde Edilen Renk Efektleri Arasındaki İlişki”, Tekstil ve Konfeksiyon, Vol.17 (1), pp: 52-58.
There are 14 citations in total.

Details

Other ID JA87ZZ23BU
Journal Section Articles
Authors

Behcet Becerir This is me

Publication Date December 1, 2010
Submission Date December 1, 2010
Published in Issue Year 2010 Volume: 20 Issue: 2

Cite

APA Becerir, B. (2010). ASSESSMENT OF COLOUR PROPERTIES OF REACTIVE DYED COTTON FABRICS UNDER DIFFERENT ILLUMINANTS BY USING CIELAB AND HUNTER SYSTEMS. Textile and Apparel, 20(2), 145-154.

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