Research Article
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Year 2018, Volume: 28 Issue: 4, 304 - 310, 29.12.2018
https://doi.org/10.32710/tekstilvekonfeksiyon.493098

Abstract

References

  • 1. Zupin Z. and Dimitrovski K., 2010, “Mechanical Properties of Fabrics Made from Cotton and Biodegradable Yarns Bamboo, SPF, PLA in weft”, Woven Fabric Engineering, Polono Dobnik Dubrovski (Ed.), IntechOpen, pp: 25-46.
  • 2. Mishra R., Behera BK., Pal BP., 2012, “Novelty of Bamboo Fabric”, The Journal of The Textile Institute, Vol: 103(3), pp: 320-329.
  • 3. Celep G., 2015, “Novel Study of Developing Models of Comfort Properties of Textile Products Made of Hollow Yarns”, PhD Thesis, Usak University Graduate School of Natural and Applied Sciences, 155p.
  • 4. Erdumlu N. and Sarıçam C, 2016, “Investigating the effect of some fabric parameters on the thermal comfort properties of flat knitted acrylic fabrics for winter wear”, Textile Research Journal, Vol: 87, pp: 1349-1359.
  • 5. Özgen B. and Altaş S, 2014, “The Investigation of Thermal Comfort, Moisture Management and Handle Properties of Knitted Fabrics Made of Various Fibres, Tekstil ve Konfeksiyon, Vol: 24(3), pp 272-278.
  • 6. Oglakcioglu N., Celik P., Ute TB., Marmarali A., Kadioglu H., 2009, “Thermal Comfort Properties of Angora Rabbit/Cotton Fiber Blended Knitted Fabrics”, Textile Research Journal, Vol: 79, pp: 888-894.
  • 7. Chidambaram P. and Govindan R., 2012, “Influence of Blend Ratio on Thermal Properties of Bamboo/Cotton Blended Woven Fabrics”, Silpakorn U Science & Tech Journal, Vol: 6, pp: 49-55.
  • 8. Kakvan A., Najar SS., Psikuta A., 2015, “Study on effect of blend ratio on thermal comfort properties of cotton/nylon-blended fabrics with high-performance Kermel fibre”, The Journal of The Textile Institute, Vol: 106, pp: 674-682.
  • 9. Erenler A. and Oğulata R., 2015, “Investigation and Prediction of Chosen Comfort Properties on Woven Fabrics for Clothing, TEkstil ve Konfeksiyon, Vol: 25(2), pp125-134.
  • 10. Özdemir H., 2017, “Thermal Comfort Properties of Clothing Fabrics Woven With Polyester/Cotton Blend Yarns”, Autex Research Journal, Vol: 17, pp: 135-141.
  • 11. Uzun M., 2012, “An Investigation of the Effects of Ultrasonic and Traditional Washing Methods on Thermal Comfort Properties of Woven Fabrics”, Tekstil ve Mühendis, Vol: 19, pp: 1-6.
  • 12. Shaker K., Ashraf M., Jabbar M., Shahid S., Nawab Y., Zia J, Rehman A., 2016, “Bioactive woven flax-based composites: Development and characterization”, Journal of Industrial Textiles, Vol: 46, pp: 549-561.
  • 13. Dastjerdi R., Mojtahedi MRM., Shoshtari AM., Khosroshahi A., Moayed AJ., 2009, “Fiber to Fabric Processability of Silver/Zinc-loaded Nanocomposite Yarns”, Textile Research Journal, Vol: 79, pp: 1099-1107.
  • 14. Zhu Y., Wang Y., Sha L., Zhao J., 2017, “Preparation of antimicrobial fabric using magnesium-based PET masterbatch”, Journal of Applied Surface Science, Vol: 425, pp: 1101-1110.
  • 15. Uzun M., 2013, “Interaction of Alginate/Copper System on Cotton and Bamboo Fabrics: The Effect on Antimicrobial Activity and Thermophysiological Comfort Properties”, Materials Science (Medžiagotyra), Vol: 19, pp: 301-308.
  • 16. Pollini M, Russo M, Licciulli A, Sannino A., Maffezzoli A., 2009, “Characterization of antibacterial silver coated yarns”, Journal of Materials Science: Materials in Medicine, Vol: 20, pp:2361–2366.
  • 17. Damerchely R., Yazdanshenas ME., Rashidi AS., Khajavi R., 2011, “Morphology and mechanical properties of antibacterial nylon 6/nano-silver nano-composite multifilament yarns”, Textile Research Journal, Vol: 81, pp: 1694-1701.
  • 18. Saraswathi R., Krishnan PN., Dilip C., 2010, “Antimicrobial Activity of Cotton and Silk With Herbal Extract By Micro Encapsulation”, Asian Pacific Journal of Tropical Medicine, Vol: 3, pp: 128-132.
  • 19. Subramanian B., Priya KA., Rajan ST., Dhandapani P., Jayachandran M., 2014, “Antimicrobial activity of sputtered nanocrystalline CuO impregnated fabrics”, Materials Letters, Vol: 128, pp: 1-4.
  • 20. Lee HJ. and Jeong SH., 2005, “Bacteriostasis and Skin Innoxiousness of Nanosize Silver Colloids on Textile Fabrics”, Textile Research Journal, Vol: 75, pp: 551-556.
  • 21. Anita S., Ramachandran T., Rajendran R., Koushik CV., Mahalakshmi M., 2011, “A study of the antimicrobial property of encapsulated copper oxide nanoparticles on cotton fabric”, Textile Research Journal, Vol: 81, pp: 1081-1088.
  • 22. Üreyen M., Gök Ö., Ateş M., Günkaya G., Süzer Ş., 2010, “Evaluation of Silver Content and Antibacterial Activities of Silver Loaded Fiber/Cotton Blended Textile Fabrics, Tekstil ve Konfeksiyon, Vol: 20(2), pp: 137-144.
  • 23. Morones JR, Elechiguerra JL, Camacho A, Holt K., Kouri JB., Ramirez JT, Yacaman MJ., 2005, “The bactericidal effect of silver nanoparticles”, Nanotechnology, Vol: 16, pp: 2346-53.
  • 24. Palamutcu S, Keskin R, Devrent N, Keskin R., Hasçelik B., 2008, “Bazı Antimikrobiyal Maddelerin %100 Pamuklu Kumaşlar Üzerindeki Mikrobiyolojik Etkinliği ve Kumaş Parametreleri Üzerindeki Etkilerinin Araştırılması”, Database of TÜBİTAK Supported Projects, Project Report, Project Number: 106M338.
  • 25. Majumdar A., Mukhopadhyay S., Yadav R., 2010, “Thermal properties of knitted fabrics made from cotton and regenerated bamboo cellulosic fibres”, International Journal of Thermal Sciences, Vol: 49, pp: 2042-2048.
  • 26. Das A. and Ishtiaque SM., 2004, “Comfort Characteristics of Fabrics Containing Twist-less and Holow Fibrous Assemblies in Weft”, Journal of Textile and Apparel, Technology and Management, Vol: 3, pp: 1-7.
  • 27. Behera BK., Ishtiaque SM., Chand S., 1997, “Comfort Properties of Fabrics Woven from Ring-, Rotor-, and Friction-spun Yarns”, The Journal of The Textile Institute, Vol: 88, pp: 255-264.
  • 28. Xi LX. and Qin DC., 2012, “The Antibacterial Performance of Natural Bamboo Fiber and Its Influencing Factors”, In Proceedings of the 55th International Convention of Society of Wood Science and Technology, 27-31 August, Beijing, China, pp:1-8.
  • 29. Lorenz C, Windler L, Goetz N, Lehmann RP., Schuppler M., Hungerbühler K., Heuberger M., Nowack B., 2012, “Characterization of silver release from commercially available functional (nano)textiles”, Chemosphere, Vol: 89, pp: 817-824.

EVALUATION OF ANTIBACTERIAL, MECHANICAL, AND COMFORT PROPERTIES OF WOVEN FABRICS CONSIST OF COTTON, BAMBOO, AND SILVER FIBERS

Year 2018, Volume: 28 Issue: 4, 304 - 310, 29.12.2018
https://doi.org/10.32710/tekstilvekonfeksiyon.493098

Abstract

In this study,
experimental and statistical evaluation of antibacterial, mechanical, and comfort
properties of woven fabrics consisting of cotton, bamboo and silver yarns were
presented. For the purpose of the study; cotton-bamboo and cotton-silver
blended fabrics were produced, mechanical properties (such as tensile strength
and tear strength) were investigated, antibacterial activities were determined,
and thermal comfort properties (such as thermal conductivity, thermal
absorption, thermal resistance, air permeability, water vapor permeability, and
water vapor resistance) were measured. Statistical evaluations were performed
by one way ANOVA and Tukey HSD and Tamhane’s T2 test methods. According to the
outputs of the research, the mechanical and comfort properties can be improved
and the antibacterial activities can be obtained of shirting and bedding
fabrics by differing weft yarn type and density.

References

  • 1. Zupin Z. and Dimitrovski K., 2010, “Mechanical Properties of Fabrics Made from Cotton and Biodegradable Yarns Bamboo, SPF, PLA in weft”, Woven Fabric Engineering, Polono Dobnik Dubrovski (Ed.), IntechOpen, pp: 25-46.
  • 2. Mishra R., Behera BK., Pal BP., 2012, “Novelty of Bamboo Fabric”, The Journal of The Textile Institute, Vol: 103(3), pp: 320-329.
  • 3. Celep G., 2015, “Novel Study of Developing Models of Comfort Properties of Textile Products Made of Hollow Yarns”, PhD Thesis, Usak University Graduate School of Natural and Applied Sciences, 155p.
  • 4. Erdumlu N. and Sarıçam C, 2016, “Investigating the effect of some fabric parameters on the thermal comfort properties of flat knitted acrylic fabrics for winter wear”, Textile Research Journal, Vol: 87, pp: 1349-1359.
  • 5. Özgen B. and Altaş S, 2014, “The Investigation of Thermal Comfort, Moisture Management and Handle Properties of Knitted Fabrics Made of Various Fibres, Tekstil ve Konfeksiyon, Vol: 24(3), pp 272-278.
  • 6. Oglakcioglu N., Celik P., Ute TB., Marmarali A., Kadioglu H., 2009, “Thermal Comfort Properties of Angora Rabbit/Cotton Fiber Blended Knitted Fabrics”, Textile Research Journal, Vol: 79, pp: 888-894.
  • 7. Chidambaram P. and Govindan R., 2012, “Influence of Blend Ratio on Thermal Properties of Bamboo/Cotton Blended Woven Fabrics”, Silpakorn U Science & Tech Journal, Vol: 6, pp: 49-55.
  • 8. Kakvan A., Najar SS., Psikuta A., 2015, “Study on effect of blend ratio on thermal comfort properties of cotton/nylon-blended fabrics with high-performance Kermel fibre”, The Journal of The Textile Institute, Vol: 106, pp: 674-682.
  • 9. Erenler A. and Oğulata R., 2015, “Investigation and Prediction of Chosen Comfort Properties on Woven Fabrics for Clothing, TEkstil ve Konfeksiyon, Vol: 25(2), pp125-134.
  • 10. Özdemir H., 2017, “Thermal Comfort Properties of Clothing Fabrics Woven With Polyester/Cotton Blend Yarns”, Autex Research Journal, Vol: 17, pp: 135-141.
  • 11. Uzun M., 2012, “An Investigation of the Effects of Ultrasonic and Traditional Washing Methods on Thermal Comfort Properties of Woven Fabrics”, Tekstil ve Mühendis, Vol: 19, pp: 1-6.
  • 12. Shaker K., Ashraf M., Jabbar M., Shahid S., Nawab Y., Zia J, Rehman A., 2016, “Bioactive woven flax-based composites: Development and characterization”, Journal of Industrial Textiles, Vol: 46, pp: 549-561.
  • 13. Dastjerdi R., Mojtahedi MRM., Shoshtari AM., Khosroshahi A., Moayed AJ., 2009, “Fiber to Fabric Processability of Silver/Zinc-loaded Nanocomposite Yarns”, Textile Research Journal, Vol: 79, pp: 1099-1107.
  • 14. Zhu Y., Wang Y., Sha L., Zhao J., 2017, “Preparation of antimicrobial fabric using magnesium-based PET masterbatch”, Journal of Applied Surface Science, Vol: 425, pp: 1101-1110.
  • 15. Uzun M., 2013, “Interaction of Alginate/Copper System on Cotton and Bamboo Fabrics: The Effect on Antimicrobial Activity and Thermophysiological Comfort Properties”, Materials Science (Medžiagotyra), Vol: 19, pp: 301-308.
  • 16. Pollini M, Russo M, Licciulli A, Sannino A., Maffezzoli A., 2009, “Characterization of antibacterial silver coated yarns”, Journal of Materials Science: Materials in Medicine, Vol: 20, pp:2361–2366.
  • 17. Damerchely R., Yazdanshenas ME., Rashidi AS., Khajavi R., 2011, “Morphology and mechanical properties of antibacterial nylon 6/nano-silver nano-composite multifilament yarns”, Textile Research Journal, Vol: 81, pp: 1694-1701.
  • 18. Saraswathi R., Krishnan PN., Dilip C., 2010, “Antimicrobial Activity of Cotton and Silk With Herbal Extract By Micro Encapsulation”, Asian Pacific Journal of Tropical Medicine, Vol: 3, pp: 128-132.
  • 19. Subramanian B., Priya KA., Rajan ST., Dhandapani P., Jayachandran M., 2014, “Antimicrobial activity of sputtered nanocrystalline CuO impregnated fabrics”, Materials Letters, Vol: 128, pp: 1-4.
  • 20. Lee HJ. and Jeong SH., 2005, “Bacteriostasis and Skin Innoxiousness of Nanosize Silver Colloids on Textile Fabrics”, Textile Research Journal, Vol: 75, pp: 551-556.
  • 21. Anita S., Ramachandran T., Rajendran R., Koushik CV., Mahalakshmi M., 2011, “A study of the antimicrobial property of encapsulated copper oxide nanoparticles on cotton fabric”, Textile Research Journal, Vol: 81, pp: 1081-1088.
  • 22. Üreyen M., Gök Ö., Ateş M., Günkaya G., Süzer Ş., 2010, “Evaluation of Silver Content and Antibacterial Activities of Silver Loaded Fiber/Cotton Blended Textile Fabrics, Tekstil ve Konfeksiyon, Vol: 20(2), pp: 137-144.
  • 23. Morones JR, Elechiguerra JL, Camacho A, Holt K., Kouri JB., Ramirez JT, Yacaman MJ., 2005, “The bactericidal effect of silver nanoparticles”, Nanotechnology, Vol: 16, pp: 2346-53.
  • 24. Palamutcu S, Keskin R, Devrent N, Keskin R., Hasçelik B., 2008, “Bazı Antimikrobiyal Maddelerin %100 Pamuklu Kumaşlar Üzerindeki Mikrobiyolojik Etkinliği ve Kumaş Parametreleri Üzerindeki Etkilerinin Araştırılması”, Database of TÜBİTAK Supported Projects, Project Report, Project Number: 106M338.
  • 25. Majumdar A., Mukhopadhyay S., Yadav R., 2010, “Thermal properties of knitted fabrics made from cotton and regenerated bamboo cellulosic fibres”, International Journal of Thermal Sciences, Vol: 49, pp: 2042-2048.
  • 26. Das A. and Ishtiaque SM., 2004, “Comfort Characteristics of Fabrics Containing Twist-less and Holow Fibrous Assemblies in Weft”, Journal of Textile and Apparel, Technology and Management, Vol: 3, pp: 1-7.
  • 27. Behera BK., Ishtiaque SM., Chand S., 1997, “Comfort Properties of Fabrics Woven from Ring-, Rotor-, and Friction-spun Yarns”, The Journal of The Textile Institute, Vol: 88, pp: 255-264.
  • 28. Xi LX. and Qin DC., 2012, “The Antibacterial Performance of Natural Bamboo Fiber and Its Influencing Factors”, In Proceedings of the 55th International Convention of Society of Wood Science and Technology, 27-31 August, Beijing, China, pp:1-8.
  • 29. Lorenz C, Windler L, Goetz N, Lehmann RP., Schuppler M., Hungerbühler K., Heuberger M., Nowack B., 2012, “Characterization of silver release from commercially available functional (nano)textiles”, Chemosphere, Vol: 89, pp: 817-824.
There are 29 citations in total.

Details

Primary Language English
Subjects Wearable Materials
Journal Section Articles
Authors

Ayşe Ebru Tayyar

Gamze D.tetik This is me

Emel Abak This is me

Publication Date December 29, 2018
Submission Date June 28, 2018
Acceptance Date November 20, 2018
Published in Issue Year 2018 Volume: 28 Issue: 4

Cite

APA Tayyar, A. E., D.tetik, G., & Abak, E. (2018). EVALUATION OF ANTIBACTERIAL, MECHANICAL, AND COMFORT PROPERTIES OF WOVEN FABRICS CONSIST OF COTTON, BAMBOO, AND SILVER FIBERS. Textile and Apparel, 28(4), 304-310. https://doi.org/10.32710/tekstilvekonfeksiyon.493098

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