Please use this identifier to cite or link to this item: https://hdl.handle.net/11499/10001
Title: Innovative hybrid fluorocarbon coating on UV/ozone surface modified wool substrate
Authors: Rahmatinejad, J.
Khoddami, A.
Avinç, Osman Ozan
Keywords: Fluorocarbon
Hybrid finishing
Repellency
Surface modification
UV/Ozone
Wool
Abrasion
Carbon films
Coatings
Curing
Drying
Fluorocarbons
Hot pressing
Hydrophobicity
Irradiation
Moisture
Substrates
Surface treatment
Textile finishing
Textile processing
Textiles
Tribology
Washing
Water absorption
Yarn
Fluorocarbon coatings
Fluorocarbon finishing
Irradiation process
Moisture absorption
Processing problems
Uv/ozone
Water and oil repellencies
Publisher: Korean Fiber Society
Abstract: In an attempt to enhance the desired properties of textile substrates, hybrid fluorocarbon coating of the wool substrate together with UV/O3 treatment was investigated. The application of fluorocarbons on the wool fabrics was found to have some processing problems due to the chemistry and structure of the wool fiber surface. Therefore, in this research, the use of UV/Ozone as a promising and environmentally friendly fast treatment for the surface modification of the wool substrate was studied. Both-sided UV/Ozone irradiation, in comparison to only one-sided UV/Ozone irradiation, resulted in the slightly better performance as evaluated for both pad-dry-cure and print-dry-cure fluorocarbon finishing treatments. By this novel hybrid finishing, the fabric outside finished with the fluorochemical exhibited hydrophobicity with 3M water repellency of 10 and the fabric inner side, which was in contact with the human body, kept its natural desirable moisture absorption. The UV/Ozone pre-treatment, by oxidizing the topmost layer of the fibers surface, imparted better durability of the fluorocarbon treatment to repeated washings and abrasion. However, UV/Ozone irradiation process could not overcome the drawback of fluorocarbon molecules reorientation after washing and/or abrasion, but the samples retrieved their hydrophobicity after hot-pressing. Overall, after the application of this novel method (both-sided UV/Ozone modified and then fluorochemical finish treated via the print-dry-cure process) on wool fabric, the inner side of the wool fabric, which was next to the skin, could provide desirable comforting moisture absorption for human body and protect the human skin from the negative hydrophobic effects of fluorocarbon chains; moreover, the outer side of the wool fabric exhibited highly durable (to repeated washings and abrasion) water and oil repellency properties to the outside world, helping the wool fabric display better dimensional stability with less shrinkage performance after repeated washings and higher air-permeability performance without detrimental effects on the tensile properties. © 2015, The Korean Fiber Society and Springer Science+Business Media Dordrecht.
URI: https://hdl.handle.net/11499/10001
https://doi.org/10.1007/s12221-015-5120-5
ISSN: 1229-9197
Appears in Collections:Mühendislik Fakültesi Koleksiyonu
Scopus İndeksli Yayınlar Koleksiyonu / Scopus Indexed Publications Collection
WoS İndeksli Yayınlar Koleksiyonu / WoS Indexed Publications Collection

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