Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Ingeo® PLA (polylactic acid) knitted fabric was scoured through an exhaust technique. The scouring was carried out with sodium carbonate in the presence of a detergent at various concentrations and temperatures. The scoured fabric was bleached with various oxidative bleaching agents. Bleaching was carried out with hydrogen peroxide, sodium chlorite and sodium hypochlorite. Hydrogen peroxide was applied by exhaust and cold pad batch (CPB) techniques. It was observed that during scouring PLA fabric was degraded at high alkali concentrations and processing temperatures. The scouring temperature above 60oC proved to be deleterious due to the scouring solution penetrating into the polymer structure and damaged the fiber. Sodium chlorite and sodium hypochlorite caused little damage to the mechanical properties of PLA. Hydrogen peroxide when applied by the CPB technique did not reduce strength appreciably but when applied by the exhaust technique decreased the strength significantly. SEM analysis revealed that hydrogen peroxide caused holes and slit formation in the fiber structure.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
45--50
Opis fizyczny
Bibliogr. 21 poz., rys., tab., wykr., wz.
Twórcy
autor
- University of Manchester, Department of Textiles & Paper, School of Materials, Manchester M60 1QD, UK
autor
- The University of Leeds, The School of Art & Design, UK
Bibliografia
- 1. Stevens, E.S. What makes green plastics green? BioCycle. March 2003, 24–27.
- 2. Ho, K.L.G., Pometto, A.L., Gadea-Rivas, A., Briceno J.A. & Rojas, A. (1999). Degradation of polylactic acid (PLA) plastic in Costa Rican soil and low state University compost rows, J. Environ. Polym. Degradation 7(4), 173–177. DOI:10.1023/A:1022874530586.
- 3. Blackburn, R.S. (2005). Biodegradable and Sustainable Fibres, Cambridge, UK: Woodhead Publishing Limited.
- 4. www.natureworksllc.com/About-NatureWorks-LLC
- 5. Dugan, J.S. (2000). Novel Properties of PLA Fibre, Research Fiber Innovation Technology, Inc. Retrieved February 05, 2014, from www.fit fibers.com/files/PLA20%Fibers.doc
- 6. Yang, Y. & Huda, S. (2003). Comparison of disperse dye exhaustion, color yield, and color fastness between polylactides and poly (ethylene terephthalate), J. Appl. Polym. Sci. 90 (12), 3285–3290. DOI: 10.1002/app.13062.
- 7. Hawkyard, C. (2004). Synthetic Fibre Dyeing. Bradford, UK: SDC.
- 8. Madaras, G.W., Parish, G.J. & Shore, J. (1993). Batchwise Dyeing of Woven Cellulosic Fabrics, Bradford, UK: SDC.
- 9. Sadov, F., Korchagin, M. & Matetsky, A. (1973). Chemical Technology of Fibrous Materials, USSR: MIR.
- 10. Tomasino, C. (1992). Chemistry & Technology of Fabric Preparation and Finishing, NCSU, USA: NCSU.
- 11. Broadbent, A.D. (2011). Basic Principles of Textile Coloration, Bradford, UK: SDC.
- 12. Karmakar, A.R. (1999). Chemical Technology in the Pretreatment Processes of Textiles, Amsterdam, Netherlands: Elsevier Science B.V.
- 13. Carr, C.M. (1995). Chemistry of the Textiles Industry, Glasgow, UK: Blackie Academic & Professional.
- 14. Joziasse, C.A.P., Grijpma, D.W., Bergsma, J.E., Cordewener, F.W., Bos, R.R.M. & Pennings, A.J. (1998). The influence of morphology the (hydrolytic degradation of as polymerized and hot-drawn poly (L-lactide)), Coll. Polym. Sci. 276(11), 968–975. DOI: 10.1007/s003960050335.
- 15. Grizzi, I., Garreau, H., Li, S. & Vert, M. (1995). Hydrolytic degradation of devices based on poly (DL-lactic acid) size-dependence, Biomaterials 16(4), 305–311. DOI:10.1016/0142-9612(95)93258-F.
- 16. Nakamura, T., Hitomi, T.S., Watanabe, S., Shimizu, Y., Jamshidi, K., Hyon, S.H. & Ikada, Y. (1989). Bioabsorption of polylactides with different molecular properties, J. Biomed. Mater. Res. 23(10), 1115–1130. DOI:10.1002/jbm.820231003.
- 17. Baig, G.A. (2013). Reduction clearing of simulated disperse dyed PLA fabrics and their tensile properties, Indian J. Fiber Tex. Res. 38(1), 22–28.
- 18. Baig, G.A. (2013). Hydrolytic stability of PLA Turing textile wet processing, Fibres Polym. 14(11), 1912–1918. DOI: 10.1007/s12221-013-1912-7.
- 19. Baig, G.A. & Carr, C.M. (2013). Pretreatment of polylactic acid (PLA) fabrics. In 6th International TexTeh, 17–18 October, 2013 (pp. 165–180), Bucharest, Romania.
- 20. Ahmad, G. (2012). Hydrolytic stability of PLA Turing Textile Wet Processing. Doctoral dissertation, University of Manchester, Manchester, UK.
- 21. Suesat, J., Sae-be, P. & Suwanrui, P. (2012). Effect of pretreatment and dyeing processes on the physical properties of Poly (Lactic acid)/Cotton blended fabric, Adv. Mater. Res. 486, 253–259.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-29b8ea25-690e-49af-8377-15db1541c0f5