ПОВЫШЕНИЕ СОРБЦИОННОЙ СПОСОБНОСТИ БАКТЕРИЦИДНЫХ ТЕКСТИЛЬНЫХ МАТЕРИАЛОВ
Аннотация
Изучено влияние различных факторов на изменение сорбционной способности текстильных материалов в зависимости от природы материала, состава биокомпозиции, вида минеральных добавок. Показаны возможные пути повышения сорбции текстильных материалов, обладающих бактерицидными свойствами.
Литература
Shtilman M.I. Polymers of biomedical destination. ICC «Academ-book». 2006. 400 p. (in Russian).
Oltarzhevskaya N.D., Korovina M.A., Savilova L.B. // Ross. Khim. J. 2002. V. XLVI. N 1. P.133-141. (in Russian).
Tsepalova N.A., Shtilman M.I., Tsatsakis A.M., Morozova C.A. // Proc. 20th Int. Soc. Contr. Release Bioact. Mater. Washington. 1993. 20. 400.
Doillon C.J. // J. Biomater. Appl. 1998. V. 2. N 4. P. 562-578.
Feldstein M.M., Yakubovich V.S., Raskina L.P., Daurova T.T. // The results of science and technology VINITI [Se-ries: Chemistry and Technology of Macromolecular com-pounds N 16]. M.: VINITI. 1981. P. 120-151 (in Russian).
Modern wound coverings. Edited by. E.V. Lutsevich. Mos-cow - Smolensk. 1996. 87 p. (in Russian).
Shapovalov S.G. // Sovremennye ranevye pokrytiya v kom-bustologii. «FARMindex-Practic». 2005. N 8. P. 38-46. (in Russian).
Kiseleva A.Yu., Shushina I.A., Kozlova O.V., Telegin F.Yu. // News of higher educational institutions. Technology of light industry. SPGUTiD. 2011. V. 12. N 2. P. 110-112 (in Russian).
Kozlova O.V., Odintsova O.I., Garasko E.V. // Izv. Vyssh. Uchebn. Zaved. Khim. Khim. Tekhnol. 2013. V. 56. N 4. P. 89-93 (in Russian).
The method of obtaining liquid peat humates. RF patent № 2310633. publ. 20.11.2007.
Kiseleva A.Yu., Kozlova O.V., Shushina I.A., Telegin F.Yu. Textile materials for medical purposes based on biolog-ically active agents and nanosilver. // 2 NPK «Nanotechnology in textile and light industry». Moscow. 2011. P. 32 (in Rus-sian).
Kiseleva A.Yu. Creation of antibacterial textile materials based on biologically active agents and nanosilver. // Seminar with international participation. «Nanostructured and compo-site materials». 2011. Saint-Petersburg. (in Russian).
