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Textile air management systems are used in modern buildings to improve overall indoor air quality. During use and storage, industrial textiles are negatively affected by microbes. Adding biocide to synthetic fibres can control the detrimental effects of antimicrobial finishing on textiles. Antimicrobial textiles have seen a rapid increase in demand due to consumers’ concern over hygiene and active lifestyles as well as with the aim to improve overall functionality. An antimicrobial treatment with a long lifespan, that is, resistant to washing, is presented in this paper. A new commercial antimicrobial product named Si Bac-Pure was used in woven polyester fabrics to treat them against bacteria. The antimicrobial activity was measured after twenty washing and drying cycles. Good antimicrobial and antifungal activity is produced in treated fabrics after treatment with the stated finishing agents. The antimicrobial treatment has significant antistatic properties that are important for industrial air management systems.
Czasopismo
Rocznik
Tom
Strony
75--82
Opis fizyczny
Bibliogr. 30 poz., rys., tab.
Twórcy
autor
- Department of Production Engineering, Faculty of Mechanical Engineering and Design, Kaunas University of Technology, Studentų 56, LT-51424, Kaunas, Lithuania
autor
- Department of Production Engineering, Faculty of Mechanical Engineering and Design, Kaunas University of Technology, Studentų 56, LT-51424, Kaunas, Lithuania
autor
- Department of Production Engineering, Faculty of Mechanical Engineering and Design, Kaunas University of Technology, Studentų 56, LT-51424, Kaunas, Lithuania
autor
- Department of Production Engineering, Faculty of Mechanical Engineering and Design, Kaunas University of Technology, Studentų 56, LT-51424, Kaunas, Lithuania
autor
- Department of Production Engineering, Faculty of Mechanical Engineering and Design, Kaunas University of Technology, Studentų 56, LT-51424, Kaunas, Lithuania
Bibliografia
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- 2. Lamba NM, Herson DS, Jindani R, King MW. Evaluation of antimicrobial-treated fabric properties. AATCC J Res. 2017;4(1):14–21.
- 3. Krisciunaite J, Kalendraite B, Ragelienė L, Merkelyte E, Mikucioniene D. Durable Wash-Resistant Antimicrobial Treatment of Knitted Fabrics. Autex Res J. 2021;1–10.
- 4. Simoncic B, Tomsic B. Structures of Novel Antimicrobial Agents for Textiles - A Review. Text Res J. 2010;80(16):1721–37.
- 5. Fu SJ, Zhang PH. Surface modification of polylactic acid and poly (D, L-lactideco-glycolide) biodegradable materials via chitosan-coating treatment: A new approach for developing novel antibacterial acupoint catgut embedding materials. Text Res J. 2019;89(13):2583–94.
- 6. Mahltig B, Fiedler D, Fischer A, Simon P. Antimicrobial coatings on textiles- modification of sol-gel layers with organic and inorganic biocides. J Sol-Gel Sci Technol. 2010;55(3):269–77.
- 7. Hossain MM, Herrmann AS, Hegemann D. Plasma hydrophilization effect on different textile structures. Plasma Process Polym. 2006;3(3):299–307.
- 8. Nourbakhsh S, Montazer M, khandaghabadi Z. Zinc oxide nano particles coating on polyester fabric functionalized through alkali treatment. J Ind Text. 2018;47(6):1006–23.
- 9. Üreyen ME, Doǧan A, Koparal AS. Antibacterial functionalization of cotton and polyester fabrics with a finishing agent based on silver-doped calcium phosphate powders. Text Res J. 2012;82(17):1731–42.
- 10. xu H, Shi X, lv Y, Mao Z. The preparation and antibacterial activity of polyester fabric loaded with silver nanoparticles. Text Res J. 2013;83(3):321–6.
- 11. Kandhavadivu P, Vigneswaran C, Ramachandran T, Geethamanohari B. Development of polyester-based bamboo charcoal and lyocell-blended union fabrics for healthcare and hygienic textiles. J Ind Text. 2011;41(2):142–59.
- 12. Miaśkiewicz-Peska E, Łebkowska M. Effect of antimicrobial air filter treatment on bacterial survival. Fibres Text East Eur. 2011;84(1):73–7.
- 13. Repon MR, Islam T, Sadia HT, Mikučionienė D, Hossain S, Kibria G, et al. Development of Antimicrobial Cotton Fabric Impregnating AgNPs Utilizing Contemporary Practice. Coatings. 2021;11(11):1–14.
- 14. Mata TM, Martins AA, Calheiros CSC, Villanueva F, Alonso-Cuevilla NP, Gabriel MF, et al. Indoor Air Quality: A Review of Cleaning Technologies. Environ - MDPI. 2022;9(9):1–28.
- 15. Khaothong K, Chaiworapuek W, Priyadumkol J. Pressure Loss Diagram of Air Flow in Polyester Fabric Duct Acrylic PVC Coated. J King Mongkut’s Univ Technol North Bangkok. 2019;29(3):445–53.
- 16. Gulati R, Sharma S, Sharma RK. Antimicrobial textile: recent developments and functional perspective. Polym Bull. 2022;79(8):5747–71.
- 17. Morais DS, Guedes RM, Lopes MA. Antimicrobial approaches for textiles: From research to market. Materials (Basel). 2016;9(6):1–21.
- 18. Dolez PI, Marsha S, McQueen RH. Fibers and Textiles for Personal Protective Equipment: Review of Recent Progress and Perspectives on Future Developments. Textiles. 2022;2(2):349–81.
- 19. Schneider G, Vieira LG, Carvalho HEF de, Sousa ÁFL de, Watanabe E, Andrade D de, et al. Textiles impregnated with antimicrobial substances in healthcare services: systematic review. Front Public Heal. 2023;11:1–24.
- 20. Simončič B, Klemenčič D. Preparation and performance of silver as an antimicrobial agent for textiles: A review. Text Res J. 2016;86(2):210–23.
- 21. Naebe M, Haque ANMA, Haji A. Plasma-Assisted Antimicrobial Finishing of Textiles: A Review. Engineering. 2022;12:145–63.
- 22. Ivanova N, Gugleva V, Dobreva M, Pehlivanov I, Stefanov S, Andonova V. Antimicrobial Agents for Textiles: Types, Mechanisms and Analysis Standards. In: Kumar B, editor. Textiles for Functional Applications. IntechOpen; 2021. p. 302.
- 23. Tanasa F, Teaca C-A, Nechifor M, Ignat M, Duceac IA, Ignat L. Highly Specialized Textiles with Antimicrobial Functionality—Advances and Challenges. Textiles. 2023;3(2):219–45.
- 24. Smart Inovation. Si Bac‐Pure® microbial. 2021. Available from: http://www.smartinovation.com/index.php/en/products-bac-pure/
- 25. ISO 6330:2012. Textiles — Domestic washing and drying procedures for textile testing. 2012.
- 26. ISO 20645:2004. Textile fabrics — Determination of antibacterial activity — Agar diffusion plate test. 2004.
- 27. SN 195920-1992. Textile Fabrics - Determination of the Antibacterial Activity - Agar Diffusion Plate Test. 1992.
- 28. EN ISO 1149-1:2006. Protective clothing - Electrostatic properties - Part 1: Test method for measurement of surface resistivity. 2006.
- 29. ISO 139:2005. Textiles — Standard atmospheres for conditioning and testing. 2005.
- 30. Abdullah I, Gilani SQZ, Mubeen F. Effect of repeated laundering on durability and bactericidal activity of some antibacterial finishes. Pakistan J Sci Ind Res Ser A Phys Sci. 2014;57(1):47–52.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1bf85cc6-9e3f-4327-9ac2-4e4ac9a4ab98