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Year 2011, Volume: 21 Issue: 4, 328 - 335, 30.12.2011

Abstract

References

  • 1. Kramer A, Schwebke I, Kampf G, 2006, How long do nosocomial pathogens persist on inanimate surfaces? A systematic review. BMC Infect Dis, 2006;6:130.
  • 2. Huang W.,1998, Evaluation of one-bath Process For Imparting Repellency And Antimicrobial Activity to Nonwoven Surgical Gown And Patient Drape Fabrics, UMI Publications.
  • 3. Rajpreet K. Virk and Gita Ramaswamy, 2004, Plasma and Antimicrobial Treatment of Nonwoven Fabrics for Surgical Gowns, Textile Res. J, Vol74(12) , p. 1079-1084.
  • 4. Epaillard F., Aouinti M., 2002, Characterization of CO2 Plasma and Interactions with Polypropylene Film, Plasmas and Polymers, Vol. 7, No. 1, p.1-16.
  • 5. Tan S., LI G. Shen J., Lıu Y., Zong M., 2000, Study of Modified Polypropylene Nonwoven Cloth. II. Antibacterial Activity of Modified Polypropylene Nonwoven Cloths, Journal of Applied Polymer Science, Vol. 77, 1869–1876
  • 6. Tsai, P., Wadsworth, L. and Roth J.R., 1997, Surface Modification of Fabrics Using a One-Atmosphere Glow Discharge Plasma to Improve Fabric Wettability, Textile Res. J, 67(5): 359–369.
  • 7. Sparavigna A., 2008, Plasma treatment advantages for textiles, Cornell University Library, [physics.pop-ph], pp. 1-16
  • 8. Wei Q., Wang Y., Yang Q., Yu L., 2008, Functionalization of Textile Materials by Plasma Enhanced Modification, Journal of Industrial Textiles, Vol 36 No:4,p.301-308.
  • 9. Wafa D. M., F. S. M. Breidt, Gawish, S. R Matthews., Donohue K. V., R. Roe M., Bourham M. A., 2007, Atmospheric Plasma-Aided Biocidal Finishes for Nonwoven Polypropylene Fabrics. II. Functionality of Synthesized Fabrics, Journal of Applied Polymer Science, Vol. 103, 1911–1917.
  • 10. Polowinski S., Jantas R., 2008, Antibacterial and Catalytic Properties of Textiles with modified Surfaces, Fıbres & Textıles in Eastern Europe, Vol. 16, No. 4 (69) p. 104-107.
  • 11. Skirlo. S., Spaniol A., 2008, Basic Information and Pratical Experiences. CHT, (1-32)
  • 12. Eberhandt D.M., 2004, Antibacterial and Laundering Properties at AMS and PMHB as Finishing Agents for Healthcare Worker Uniforms . PhD Thesis, (38- 120)
  • 13. Nasadil P., Benesovsky P., 2008, Plasma in Textile Treatment, II. Central Europan Symposium on Plasma Chemistry, Chem. Listy 102, pp:1486-1489.
  • 14. Canonico, I. P., 2000, Industrial Plasma Treatment for Nonwovens, Nonwovens Ind. Textiles, Vol.3, p.36-40.
  • 15. Wei Q. Mather R., Fotheringam A., Yang R., 2002, ‘ESEM Study of Wetting of Untreated and Plasma Treated Polypropylene Fibers’, Journal of Industrial Textiles, Vol 32 No:1,P.59-66.
  • 16. Russel S.J., 2007, Handbook of Nonwovens. Woodhead Publishing, ISBN: 084932596X.

DEVELOPMENT OF DISPOSABLE HYDROPHILIC AND ANTIBACTERIAL POLYPROPYLENE NONWOVEN SHEET

Year 2011, Volume: 21 Issue: 4, 328 - 335, 30.12.2011

Abstract

Especially at hospitals, nosocomial infections or the infections of patients are a great concern for the patients, visitors, and healthcare
workers. Mortality caused by nosocomial infections is quite high in all over the world. It is reported that 40 % of all nosocomial infections
can be prevented. In this study first of all, nosocomial infections and their effect on the human health are disscussed. And then the hospital
sheets and their role on the spread of these infections were examined. The main purpose of this study is to develop a new disposable and
antibacterial sheet. It was targetted to partially prevent spread of the infections in the hospitals. Because of the cost concerns, the disposable
sheet was designed as polypropylene and spun-bond nonwoven. In the experimental section, 3 different polypropylene spun-bond nonwoven
fabrics were supplied by General Nonwoven Ltd. Nonwovens were processed into a hydrophilic structure by using atmospheric O2 plasma
treatment. Silver based and PHMB based two different antibacterial finishing chemicals were applied to the samples by pad-batch method.
Antimicrobial tests and physical tests were applied to the samples according to relevant ISO and ASTM standards for measuring their
performance characteristics. Finally experimental results were evaluated using statistical methods and how, and at which level chemical
finishing and atmospheric plasma process affects spunbond nonwoven fabric properties were tried to define.

References

  • 1. Kramer A, Schwebke I, Kampf G, 2006, How long do nosocomial pathogens persist on inanimate surfaces? A systematic review. BMC Infect Dis, 2006;6:130.
  • 2. Huang W.,1998, Evaluation of one-bath Process For Imparting Repellency And Antimicrobial Activity to Nonwoven Surgical Gown And Patient Drape Fabrics, UMI Publications.
  • 3. Rajpreet K. Virk and Gita Ramaswamy, 2004, Plasma and Antimicrobial Treatment of Nonwoven Fabrics for Surgical Gowns, Textile Res. J, Vol74(12) , p. 1079-1084.
  • 4. Epaillard F., Aouinti M., 2002, Characterization of CO2 Plasma and Interactions with Polypropylene Film, Plasmas and Polymers, Vol. 7, No. 1, p.1-16.
  • 5. Tan S., LI G. Shen J., Lıu Y., Zong M., 2000, Study of Modified Polypropylene Nonwoven Cloth. II. Antibacterial Activity of Modified Polypropylene Nonwoven Cloths, Journal of Applied Polymer Science, Vol. 77, 1869–1876
  • 6. Tsai, P., Wadsworth, L. and Roth J.R., 1997, Surface Modification of Fabrics Using a One-Atmosphere Glow Discharge Plasma to Improve Fabric Wettability, Textile Res. J, 67(5): 359–369.
  • 7. Sparavigna A., 2008, Plasma treatment advantages for textiles, Cornell University Library, [physics.pop-ph], pp. 1-16
  • 8. Wei Q., Wang Y., Yang Q., Yu L., 2008, Functionalization of Textile Materials by Plasma Enhanced Modification, Journal of Industrial Textiles, Vol 36 No:4,p.301-308.
  • 9. Wafa D. M., F. S. M. Breidt, Gawish, S. R Matthews., Donohue K. V., R. Roe M., Bourham M. A., 2007, Atmospheric Plasma-Aided Biocidal Finishes for Nonwoven Polypropylene Fabrics. II. Functionality of Synthesized Fabrics, Journal of Applied Polymer Science, Vol. 103, 1911–1917.
  • 10. Polowinski S., Jantas R., 2008, Antibacterial and Catalytic Properties of Textiles with modified Surfaces, Fıbres & Textıles in Eastern Europe, Vol. 16, No. 4 (69) p. 104-107.
  • 11. Skirlo. S., Spaniol A., 2008, Basic Information and Pratical Experiences. CHT, (1-32)
  • 12. Eberhandt D.M., 2004, Antibacterial and Laundering Properties at AMS and PMHB as Finishing Agents for Healthcare Worker Uniforms . PhD Thesis, (38- 120)
  • 13. Nasadil P., Benesovsky P., 2008, Plasma in Textile Treatment, II. Central Europan Symposium on Plasma Chemistry, Chem. Listy 102, pp:1486-1489.
  • 14. Canonico, I. P., 2000, Industrial Plasma Treatment for Nonwovens, Nonwovens Ind. Textiles, Vol.3, p.36-40.
  • 15. Wei Q. Mather R., Fotheringam A., Yang R., 2002, ‘ESEM Study of Wetting of Untreated and Plasma Treated Polypropylene Fibers’, Journal of Industrial Textiles, Vol 32 No:1,P.59-66.
  • 16. Russel S.J., 2007, Handbook of Nonwovens. Woodhead Publishing, ISBN: 084932596X.
There are 16 citations in total.

Details

Primary Language English
Subjects Textile Science
Journal Section Articles
Authors

Hakan Ünal

Gülay Özcan

Publication Date December 30, 2011
Submission Date May 22, 2011
Acceptance Date September 23, 2011
Published in Issue Year 2011 Volume: 21 Issue: 4

Cite

APA Ünal, H., & Özcan, G. (2011). DEVELOPMENT OF DISPOSABLE HYDROPHILIC AND ANTIBACTERIAL POLYPROPYLENE NONWOVEN SHEET. Textile and Apparel, 21(4), 328-335.

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