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Synergiczne działanie poszczególnych metod wykańczania wełny
Języki publikacji
Abstrakty
Knitted wool fabrics were treated with atmospheric argon plasma, enzyme (protease), chitosan and a combination of these processes. The treated fabrics were evaluated in terms of their dyeability, colour fastness and shrinkage properties, as well as bursting strength. The surface morphology was characterised by SEM images. In order to show the functionalisation of a wool surface after plasma treatment, XPS analysis was done. Our results reveal that atmospheric plasma has an etching effect and increases the functionality of a wool surface, which is evident from SEM and XPS analysis. Atmospheric plasma treatment enhances the adhesion of chitosan to the surface and improves the hydrophility of the fibre. Enzymatic treatment improves the coating ability of chitosan. All these processes produce high dyeing efficiency and shrink-resistance in wool fabric. Plasma treatment has no significant effect on bursting strength, unlike enzymatic treatment. The loss of bursting strength after plasma and enzymatic treatment is recovered, to a certain degree, by chitosan treatment. Significant changes in the fastness properties of the treated fabrics were not observed.
Wełniane dzianiny obrabiano plazmą w atmosferze argonu, enzymem (proteza), chitozanem oraz kombinacją tych metod. Obrobione dzianiny oceniano pod względem ich wybarwialności, trwałości koloru, kurczliwości oraz wytrzymałości na rozerwanie. Scharakteryzowano morfologię powierzchni przy pomocy SEM. W celu pokazania funkcjonalizacji powierzchni wełny po obróbce plazmą dokonano analizy XPS. Wyniki pracy pokazują, że plazma ma zdolność wytrawiania i zwiększania funkcjonalności powierzchni wełny, co jest widoczne z analizy SEM i XPS. Obróbka plazmą zwiększa adhezję chitozanu do powierzchni i poprawia hydrofilność włókien. Obróbka enzymatyczna zwiększa zdolności powlekające chitozanu. Wszystkie te procesy powodują wysoka wydajność barwienia i odporność na skurcz tkanin wełnianych. Obróbka plazmą nie ma znaczącego wpływu na wytrzymałość na rozerwanie, w przeciwieństwie do obróbki enzymatycznej. Utrata wytrzymałości na rozerwanie po obróbce plazmą i enzymami jest rekompensowana w pewnym stopniu obróbką chitozanem. Nie zaobserwowano znaczących zmian we właściwościach wytrzymałościowych obrabianych tkanin.
Czasopismo
Rocznik
Strony
89--94
Opis fizyczny
Bibliogr. 26 poz., rys., tab.
Twórcy
autor
- Ege University, Department of Textile Engineering, Bornova, İzmir Turkey
autor
- Ege University, Department of Textile Engineering, Bornova, İzmir Turkey
autor
- Ege University, Department of Textile Engineering, Bornova, İzmir Turkey
autor
- Ege University, Department of Textile Engineering, Bornova, İzmir Turkey
autor
- Ege University, Department of Textile Engineering, Bornova, İzmir Turkey
Bibliografia
- 1. Lewis D. M. , Wool Dyeing, Society of Dyers and Colourists, January 1992, pp.2-3
- 2. Pascual E., Julia M. R`, “The role of chitosan in wool finishing”, Journal of Biotechnology, Vol. 89, 2001, pp. 289–296
- 3. Kan C.W., Chan K., Yuen C. W. M., Miao M. H., “Surface properties of lowtemperature plasma treated wool fabrics”, Journal of Materials Processing Technology, Vol. 83, 1998, pp. 180–184.
- 4. Kan C.W., Chan K., Yuen C. W. M., Miao M. H., “The effect of low-temperature plasma on the chrome dyeing of wool fibre”, Journal of Materials Processing Technology Vol. 82, 1998, pp. 122–126.
- 5. Shen J., Rushforth M., Cavaco-Paulo A., Guebitz G., Lenting H., “Development and industrialisation of enzymatic shrink-resist process based on modified proteases for wool machine washability”, Enzyme and Microbial Technology, Vol. xx, (2006), pp. xxx–xxx
- 6. Dragan J., Vı'lchez S., Topalovic T., Molina R., Navarro A., Jovancic P., Julia M. R., Erra P., “Effect of low-temperature plasma and chitosan treatment on wool dyeing with acid red 27”, Journal of Applied Polymer Science, Vol. 97, 2005, pp. 2204–2214
- 7. C. Jocic, P. Jovancic, Z. L. Petrovic, E. Bertran, A. Navarro, M. R. Julia, P. Erra, “The ınfluence of surface modification on wool functional and dyeing properties”, Autex Conference, July, 2002, pp. 299-307.
- 8. P. Jovancic, J.Dragan, R. Molina, M. R. Julia, E. Pilar, “Shrinkage properties of peroxide-enzyme-biopolymer treated wool, Textile Research Journal, Vol. 71, No.11, 2001, pp.948-953
- 9. P. Erra, R. Molina, D. Jocic, M. R. Julia; A. Cuesta, J.M.D. Tascon, “Shrinkage properties of wool treated with low temperature plasma and chitosan biopolymer”, Textile Research Journal, Vol 69, No. 11, 1999, pp. 811-815.
- 10. M. S. Yen “Application of chitosan/nonionic surfactant mixture in reactive dyes for dyeing wool fabrics”, Journal of Applied Polymer Science, Vol. 80, 2001, pp.2859–2864.
- 11. S. Vilchez, P. Jovancic, A. M. Manich, M. R. Julia`, P. Erra “Chitosan application on wool before enzymatic treatment”, Journal of Applied Polymer Science, Vol. 98, 2005, pp. 1938–1946.
- 12. T. Öktem, “Surface treatment of cotton fabrics with chitosan”, Coloration Technology, Vol. 119, 2003, pp. 241-246
- 13. W. Siji, S. Tokino, S.Niu, “Dyeing properties of low-temperature plasma under atmospheric pressue, Textile Research Journal, Vol.63, No.8, 1993, pp. 438-442
- 14. J. Musnickas, V. Rupainytė, R. Treigienė, L. Ragelienė “Dye migration ınfluences on colour characteristics of wool fabric dyed with acid dye”, Fibres & Textiles in Eastern Europe, Vol. 13, No. 6, 2005, pp. 65-69
- 15. T. Wakida, S. Tokino, S. N. H. Kawamura, “Surface characteristics of wool and poly(etylene terephtalate.fabrics and film treated with low temperature plasma under atmospheric pressure”, Textile Research Journal, Vol. 63, No.8, 1993, pp. 433-438
- 16. H. Hesse, H. Thomas and H. Höcker, “Zero AOX shrinkproofing treatment for wool top and fabric: Part 1: Glow discharge Treatment, Textile Research. Journal, Vol. 65, No. 6, 1995, pp. 355–361
- 17. N. Brack, R. N. Lamb, D. Pham, T. Phillips and P. Turner, “Effect of water at elevated temperatures on the wool fibre surface” Surface Interface Analaysis, Vol. 27, No. 12, 1999, pp.1050– 1054
- 18. R. J. Ward, H. A. Willis, G. A. George, G. B. Guise, R. J. Denning, D. J. Evans and R. D. Short, “Surface analysis of wool by X-Ray photoelectron spectroscopy and static secondary ion mass spectrometry”, Textile Research Journal, Vol. 63, 1993, pp. 362–368
- 19. R. Molina, P. Jovanïcıc, F. Comelles, E. Bertran And P. Erra, “Shrink-resistance and wetting properties of keratin treated by glow discharge”, Journal of Adhesion Science Technoogy, Vol. 16, No. 11, 2002, pp. 1469–1485
- 20. M. S. Kim, T. J. Kang, “Dimensional surface properties of plasma and silicone treated wool fabric”, Textile Research Journal, Vol. 72, No. 2, 2002, pp 113-120
- 21. D. Sun, G.K. Stylios, “Fabric surface properties detected by low temperature plasma treatmnet, Journal of Materials Processing Technology, Vol. 173, 2006, pp. 172-177
- 22. P. Jovancic, D. Jocic, R. Molina, M.R. Julia, P. Erra, “The combined low-temperature plasma/enzyme wool shrink-resist treatment, AATCC Review, February, 2003, 25-28
- 23. H. Thomas, Proceedings 10 th International Wool Textile Research Conference, Aachen, Germany, CD ROM, 2000, PL-3.
- 24. E. Rybicki, B. Filipowska, A.Walawska, “Application of natural biopolymers ın shrink-proofing of wool”, Fibres & Tex in Eastern Europe, Vol.8, No.1, 2000, pp. 62 – 65
- 25. R. Breier, “Rein enzymatische antifilzausrüstung von wolle nach dem Lanazymverfahren”, Melliand Textilberichte, 2004, pp. 298-302
- 26. H.J. Yan., W.Y.Guo, Fourth Annu. Int. Conf. Plasma Chemistry and Technology, p. 182, 1989.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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