Czasopismo
Tytuł artykułu
Warianty tytułu
Syntetyczne nici modyfikowane nanocząstkami metali
Języki publikacji
Abstrakty
This paper concerns development of a method of providing textile materials with the bactericidal effect by introduction of nanoparticles of selected metals (silver, copper, ferrum) to the structure of synthetic threads at the formation stage. In this paper, one examines also properties of modified complex synthetic threads in a mixture with popular threads. (original abstract)
Praca poświęcona opracowaniu metody nadania efektu bakteriobójczego materiałom włókienniczym poprzez wprowadzenie w stadium formowania do struktury nici syntetycznych nanocząsteczek wybranych metali (srebra, miedzi, żelaza). W pracy również zbadana właściwości modyfikowanych złożonych nici syntetycznych w mieszance z nićmi łubianymi. (abstrakt oryginalny)
Twórcy
autor
- Kiev National University of Technologies and Design, Ukraine
autor
- Kazimierz Pułaski University of Technology and Humanities in Radom, Poland
autor
- Kiev National University of Technologies and Design, Ukraine
autor
- Kiev National University of Technologies and Design, Ukraine
autor
- Kiev National University of Technologies and Design, Ukraine
Bibliografia
- [1] Handbook of Textiles. Technomic Publish Co, 1995.
- [2] Nadanathangam Vigneshwaran, Perianambi V. Varadarajan, Rudrapatna H. Balasubramanya (2007) Application of Metallic Nanoparticles in Textiles. Wiley-VCH Verlag.
- [3] Aronjo M., Fangiero R., Geraldes M.J. (2005) Developing fibrous material structured for technical applications. AUTEX Research J., 5 (1), 49-54.
- [4] Yilmaz H.R., Eskisar T. Some interesting examples about the solution of the geotechnical problems using geosyntetics // III Intern. Technical Textiles Congress, 2007, Istanbul, 1-2 December 2007. - P. 418-425.
- [5] Celik A., Demir A., Bozkart Y. Photovoltaic application for textiles // III Intern. Technical Textiles Congress, 2007, Istanbul, 1-2 December 2007. - P. 291-299.
- [6] Yilmaz H.R., Eskisar T. (2007) Some interesting examples about the solution of the geotechnical problems using geosynthetics. III Intern. Technical Textiles Congress, Istanbul, 1-2 December 2007, pp. 418-425.
- [7] Celik A., Demir A., Bozkart Y. (2007) Photovoltaic application for textiles. Ill Intern. Technical Textiles Congress, Istanbul, 1-2 December 2007, pp. 418-425.
- [8] Baker С., Pradhan A., Pakstis L., Pochan J.D., Shah S.I. (2005) Synthesis and antibacterial properties of silver nanoparticles. J. Nanosci. NanotechnoL, 5, 244-249.
- [9] Bereznenko M.P., Vislenko V.l., Bandura N.G., Kurlova N.I. (2005) Razrabotka antimikrobnyh tekstilnyh materialov na osnove lubianyh volokon i modyficyrovanyh synteticheskih nitej. Visnik KNUTD, vol. I, No 5 (25), pp. 43-46.
- [10] Tarimala S., Kothari N., Abidi N., Hequet E., Fralick J., Dai L.L. (2006) New approach to antibacterial treatment of cotton fabric with silver nanoparticle-doped silica using sol-gel process. J. Appl. Polymer Sci., 101, 2938-2943.
- [11] Üreyenl M.E., Dogan A., Koparal A.S., Mucha H., Hoefer D., Assfalg S., Swerev M. (2002) Investigating the effect of silver doped bio-antibacterial finishing agent on the properties of knitted fabrics. Antimicrobial finishes, modifications, regulations and evaluation, Melliand, 4, 238-243.
- [12] Volkov O.I., Kostrickij V.V., Kaplunenko V.G., Bereznenko S..M., Kosinov M.V. (2010) Ukrainian Patent U A 91619C2, Intelektualnyj baktericydnyj tekstil. 10.08.2010.
- [13] Lok C.N., Но C.M., Chen R., He Q.Y., Yu W.Y., Sun H., Tam P., Chiu J.F., Che С. M. (2006) Proteomic analysis of the mode of antibacterial action of silver nanoparticles. J. Proteome Res., 5, 916-924.
- [14] Schwartz M. (2005) New materials, processes, and methods technology. Clearwater, Florida, USA.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.ekon-element-000171329583