BibTex RIS Cite

SELÜLOZİK DOKUMA KUMAŞLARDA KOSTİKLEMENİN BURUŞMAZLIK ÖZELLİĞİNE ETKİSİ

Year 2016, Volume: 26 Issue: 1, 84 - 91, 01.06.2016

Abstract

Selüloz ve rejenere selüloz lifleri, günümüzde dünyada çok yaygın bir şekilde kullanılmaktadır. Bu liflerin birçok avantajı olmasına rağmen kolay bir şekilde buruşmaktadırlar. Performans arttırıcı terbiye işlemleri sayesinde buruşma özelliği elimine edilmektedir. Bu çalışmada; buruşmazlık bitim işlemlerinden önce yapılan kostikleme işleminin kumaşların buruşmazlık, kopma mukavemeti ve aşınma dayanımı özellikleri üzerine olan etkisinin incelenmesi amaçlanmıştır. Kostikleme işlemleri; %100 merserize pamuk, %100 merserize yapılmamış pamuk, %100 keten ve %100 viskon dokuma kumaşlara farklı kostik konsantrasyonlarında uygulanmıştır. Kumaş tipi, kostik konsantrasyonu ve çapraz bağlayıcı konsantrasyonu parametreleri ayrı ayrı değerlendirilmiştir. Elde edilen sonuçlar tartışılmıştır

References

  • 1. İşmal, Ö.E., 2008, “The Effect of Causticizing, Washing and Drying Processes on Shrinkage and Crease Resistance Properties of Viscose Fabric”, Tekstil ve Konfeksiyon, Vol.3, pp:221-228.
  • 2. Song, G., 2011, “Improving Comfort in Clothing”, The Textile Institute, Woodhead Publishing Limited, Cambridge UK
  • 3. Blackburn, R.S., 2005, “Biodegradable and Sustainable Fibres”, The Textile Institute, Woodhead Publishing Limited, Cambridge UK
  • 4. Streitlien, H., 2015, “Compression Moulding of Cellulose Composites”, Department of Chemistry and Chemical Engineering, Chalmers University of Technology Gothenburg, Sweden, Master Thesis, pp:12-46.
  • 5. Bajaj, P., 2002, “Finishing of Textile Materials”, Journal of Applied Polymer Science, Vol.83, pp:631-659.
  • 6. Gemci, R., Çebiçci, C., 2011, “Examining the Effect of Mercerization Process Applied Under Different Conditions via the Degree of Whiteness and Color Efficiency”, Journal of Applied Polymer Science, Vol.121, pp:202-209.
  • 7. Punyacharaoennon, P., Sarikanon, C., 2010, “Causticization and Anticrease Finish in Continuous Process”, 2nd RMUTP International Conference, pp:356- 362.
  • 8. Wagaw, T, Chavan, RB., 2012, “Optimization of Caustic Soda Concentration for Causticization of Cotton”, Journal of Textile Science & Engineering, Vol.1, No.9, pp:1-6.
  • 9. Carkıt, G., Üstündağ, S., Bahtiyari, M.I., Örtlek, H.G., 2014, “Applying Causticizing Process on Bamboo/Cotton Blended Knitted Fabrics”, Industria Textila, Vol.65, No.2, pp:113-119.
  • 10. Bahtiyari, M.I., Duran, K., Körlü, A., Bahar, M., Özerdem, A., Perinçek, S., 2009, “Causticizing of Viscose Fabrics”, Journal of Textile and Apparel, Technology and Management, Vol.6, No.1, pp:1-7.
  • 11. Özgüney, A.T., Tarakçıoğlu, I. , Körlü, A., Özerdem, A., Bahtiyari, M.I., 2005, “Effects of Different Pretreatment Processes on Viscose Fabrics In Different Types and Properties”, Journal of the Textile Institute, Vol.96, pp:319-327.
  • 12. Bahtiyari, M.I., Duran, K., Körlü, A., 2007, “The Effect of Causticizing Processes on The Pilling Values of Viscose Fabrics”, AATCC Review, Vol.7, pp:40-45.
  • 13. DIN Standard, Standard Number: 53890, 1972
  • 14. EN ISO Standard, Standard Number: 13934-1, 1999
  • 15. ISO Standard, Standard Number: 12947-2, 1998
  • 16. Ibanescu, C., Schimper, C., Bechtold, T., 2006, “Alkaline Treatment of Cotton in Different Reagent Mixtures with Reduced Water Content II. Influence of Finishing Procedure”, Journal of Applied Polymer Science, Vol.101, pp:1194-1201.
  • 17. Colom, X., Carrillo, F., 2002, “Crystallinity Changes in Lyocell and Viscose-Type Fibres By Caustic Treatment, European Polymer Journal, Vol.38, pp:2225-2230.
  • 18. Kittinaovarat, S., Kantuptim, P., Singhaboonponp, T., 2006, “Wrinkle Resistant Properties and Antibacterial Efficacy of Cotton Fabrics Treated with Glyoxal System and with Combination of Glyoxal and Chitosan System”, Journal of Applied Polymer Science, Vol.100, pp:1372-1377.
  • 19. Ramachandran, T., Gobi, N., Rajendran, V., Lakshmikantha, C.B., 2009, “Optimization of Process Parameters for Crease Resistant Finishing of Cotton Fabric Using Citric Acid”, Indian Journal of Fibre&Textile Research, Vol.34, pp:359-367.
  • 20. Harifi, T., Montazer, M., 2012, “Past, Present and Future Prospects of Cotton Cross-Linking: New Insight Into Nano Particles, Carbohydrate Polymers”, Carbohydrate Polymers, Vol.88, pp:1125-1140.

EFFECTS OF CAUSTICIZING ON CREASE RESISTANCE OF CELLULOSIC WOVEN FABRICS

Year 2016, Volume: 26 Issue: 1, 84 - 91, 01.06.2016

Abstract

Cellulose and regenerated cellulose fibers are used widely in the world recently. In spite of many advantages of cellulosic fibers, they can wrinkle easily. Because of the performance enhancing finishes, the wrinkle property can be eliminated. In this study, it was aimed to investigate the effect of causticizing treatment before the crease resistance finishing on the crease resistance, breaking strength and abrasion resistance properties of the fabrics. The causticizing processes were applied to 100% mercerized cotton, 100% unmercerized cotton, 100% linen, and 100% viscose woven fabrics at different caustic-soda concentration. The fabric type, the causticsoda concentration and the concentration of crosslinking agent parameters were evaluated independently. The obtained results were discussed

References

  • 1. İşmal, Ö.E., 2008, “The Effect of Causticizing, Washing and Drying Processes on Shrinkage and Crease Resistance Properties of Viscose Fabric”, Tekstil ve Konfeksiyon, Vol.3, pp:221-228.
  • 2. Song, G., 2011, “Improving Comfort in Clothing”, The Textile Institute, Woodhead Publishing Limited, Cambridge UK
  • 3. Blackburn, R.S., 2005, “Biodegradable and Sustainable Fibres”, The Textile Institute, Woodhead Publishing Limited, Cambridge UK
  • 4. Streitlien, H., 2015, “Compression Moulding of Cellulose Composites”, Department of Chemistry and Chemical Engineering, Chalmers University of Technology Gothenburg, Sweden, Master Thesis, pp:12-46.
  • 5. Bajaj, P., 2002, “Finishing of Textile Materials”, Journal of Applied Polymer Science, Vol.83, pp:631-659.
  • 6. Gemci, R., Çebiçci, C., 2011, “Examining the Effect of Mercerization Process Applied Under Different Conditions via the Degree of Whiteness and Color Efficiency”, Journal of Applied Polymer Science, Vol.121, pp:202-209.
  • 7. Punyacharaoennon, P., Sarikanon, C., 2010, “Causticization and Anticrease Finish in Continuous Process”, 2nd RMUTP International Conference, pp:356- 362.
  • 8. Wagaw, T, Chavan, RB., 2012, “Optimization of Caustic Soda Concentration for Causticization of Cotton”, Journal of Textile Science & Engineering, Vol.1, No.9, pp:1-6.
  • 9. Carkıt, G., Üstündağ, S., Bahtiyari, M.I., Örtlek, H.G., 2014, “Applying Causticizing Process on Bamboo/Cotton Blended Knitted Fabrics”, Industria Textila, Vol.65, No.2, pp:113-119.
  • 10. Bahtiyari, M.I., Duran, K., Körlü, A., Bahar, M., Özerdem, A., Perinçek, S., 2009, “Causticizing of Viscose Fabrics”, Journal of Textile and Apparel, Technology and Management, Vol.6, No.1, pp:1-7.
  • 11. Özgüney, A.T., Tarakçıoğlu, I. , Körlü, A., Özerdem, A., Bahtiyari, M.I., 2005, “Effects of Different Pretreatment Processes on Viscose Fabrics In Different Types and Properties”, Journal of the Textile Institute, Vol.96, pp:319-327.
  • 12. Bahtiyari, M.I., Duran, K., Körlü, A., 2007, “The Effect of Causticizing Processes on The Pilling Values of Viscose Fabrics”, AATCC Review, Vol.7, pp:40-45.
  • 13. DIN Standard, Standard Number: 53890, 1972
  • 14. EN ISO Standard, Standard Number: 13934-1, 1999
  • 15. ISO Standard, Standard Number: 12947-2, 1998
  • 16. Ibanescu, C., Schimper, C., Bechtold, T., 2006, “Alkaline Treatment of Cotton in Different Reagent Mixtures with Reduced Water Content II. Influence of Finishing Procedure”, Journal of Applied Polymer Science, Vol.101, pp:1194-1201.
  • 17. Colom, X., Carrillo, F., 2002, “Crystallinity Changes in Lyocell and Viscose-Type Fibres By Caustic Treatment, European Polymer Journal, Vol.38, pp:2225-2230.
  • 18. Kittinaovarat, S., Kantuptim, P., Singhaboonponp, T., 2006, “Wrinkle Resistant Properties and Antibacterial Efficacy of Cotton Fabrics Treated with Glyoxal System and with Combination of Glyoxal and Chitosan System”, Journal of Applied Polymer Science, Vol.100, pp:1372-1377.
  • 19. Ramachandran, T., Gobi, N., Rajendran, V., Lakshmikantha, C.B., 2009, “Optimization of Process Parameters for Crease Resistant Finishing of Cotton Fabric Using Citric Acid”, Indian Journal of Fibre&Textile Research, Vol.34, pp:359-367.
  • 20. Harifi, T., Montazer, M., 2012, “Past, Present and Future Prospects of Cotton Cross-Linking: New Insight Into Nano Particles, Carbohydrate Polymers”, Carbohydrate Polymers, Vol.88, pp:1125-1140.
There are 20 citations in total.

Details

Other ID JA89FD77DS
Journal Section Articles
Authors

Eylen Sema Dalbaşı This is me

Publication Date June 1, 2016
Submission Date June 1, 2016
Published in Issue Year 2016 Volume: 26 Issue: 1

Cite

APA Dalbaşı, E. S. (2016). EFFECTS OF CAUSTICIZING ON CREASE RESISTANCE OF CELLULOSIC WOVEN FABRICS. Textile and Apparel, 26(1), 84-91.

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.