Geodesic
Coloration of polyester fibers for securities protection from falsification
Problemy fiziki, matematiki i tehniki, no. 1 (2014), pp. 90-97 Cet article a éte moissonné depuis la source Math-Net.Ru

Voir la notice de l'article

Luminescence of polyester fibers colored by different luminophores using craising mechanism was investigated. Arrangement for interrupted modification of fibers by luminescent colorants was designed. Optimal thickness of fiber bundle ($90\div100$ fibers) subjected to modification was estimated. Effective fiber coloration takes place when the drawing out degree is between $2$ and $3$. It was shown that fibers modified by Oksasin and Rodamin are characterized by the highest intensity of luminescence in UV radiation.
Keywords: polyester fibers, craising, luminescence spectrum.
Mots-clés : modification, luminescent colorants 
@article{PFMT_2014_1_a15,
     author = {V. A. Goldade and N. V. Kuzmenkova and V. V. Kravchenko and V. E. Sytsko},
     title = {Coloration of polyester fibers for securities protection from falsification},
     journal = {Problemy fiziki, matematiki i tehniki},
     pages = {90--97},
     year = {2014},
     number = {1},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/PFMT_2014_1_a15/}
}
TY  - JOUR
AU  - V. A. Goldade
AU  - N. V. Kuzmenkova
AU  - V. V. Kravchenko
AU  - V. E. Sytsko
TI  - Coloration of polyester fibers for securities protection from falsification
JO  - Problemy fiziki, matematiki i tehniki
PY  - 2014
SP  - 90
EP  - 97
IS  - 1
UR  - http://geodesic.mathdoc.fr/item/PFMT_2014_1_a15/
LA  - ru
ID  - PFMT_2014_1_a15
ER  - 
%0 Journal Article
%A V. A. Goldade
%A N. V. Kuzmenkova
%A V. V. Kravchenko
%A V. E. Sytsko
%T Coloration of polyester fibers for securities protection from falsification
%J Problemy fiziki, matematiki i tehniki
%D 2014
%P 90-97
%N 1
%U http://geodesic.mathdoc.fr/item/PFMT_2014_1_a15/
%G ru
%F PFMT_2014_1_a15
V. A. Goldade; N. V. Kuzmenkova; V. V. Kravchenko; V. E. Sytsko. Coloration of polyester fibers for securities protection from falsification. Problemy fiziki, matematiki i tehniki, no. 1 (2014), pp. 90-97. http://geodesic.mathdoc.fr/item/PFMT_2014_1_a15/

[1] S. Dubovik, “Naukoemkaya golograficheskaya zaschita”, Vedy, 2012, 6 avg., 2

[2] Pravonarusheniya v Respublike Belarus, statisticheskii sbornik, Natsionalnyi statisticheskii komitet Respubliki Belarus, Minsk, 2012, 170 pp.

[3] S. Kislukhin, L. Korochkin, “Zaschita ofitsialnykh bumag, blankov i dokumentov ot poddelki v Respublike Belarus”, Bankaŭski vesnik, 2002, no. 6, 36–40

[4] A. A. Konshin, Zaschita poligraficheskoi produktsii ot falsifikatsii, OOO «Sinus», M., 1999, 160 pp.

[5] E. J. Kramer, L. L. Berger, “Fundamental processes of craze growth and fracture”, Adv. Polym. Sci., 91/92 (1990), 1–68 | DOI

[6] A. L. Volynskii i dr., “Kreizing v zhidkikh sredakh — osnova dlya sozdaniya unikalnogo metoda modifikatsii polimerov”, Rossiiskii khimicheskii zhurnal, XLIX:6 (2005), 118–128

[7] A. L. Volynskii, N. F. Bakeev, Strukturnaya samoorganizatsiya amorfnykh polimerov, Fizmatlit, M., 2005, 232 pp.

[8] A. L. Volynskii, “Effekt Rebindera v polimerakh”, Priroda, 2006, no. 11, 11–18

[9] A. L. Volynskii, L. M. Yarysheva, N. F. Bakeev, “Universalnyi metod polucheniya nanokompozitov na polimernoi osnove”, Nanoissledovaniya i razrabotki, 2:3–4 (2006), 11–18

[10] N. S. Vinidiktova i dr., “Ispolzovanie kreizinga polimerov dlya sozdaniya antimikrobnykh poliefirnykh volokon”, Doklady Natsionalnoi akademii nauk Belarusi, 53:5, sentyabr–oktyabr (2009), 108–112

[11] V. A. Goldade, L. S. Pinchuk, N. S. Vinidictova, “Modification of polyester fibers by bactericides using crazing mechanism”, Int. Polymer Processing, 25:3 (2010), 199–204 | DOI

[12] A. P. Andronova i dr., “Krashenie poliefirnykh volokon s ispolzovaniem metoda kreizinga”, Khimicheskie volokna, 2011, no. 1, 71–74

[13] Dzong-Kiu Kim, Iong-Khvan Park; zayavitel Koreya Sekyuriti Printing End Minting Korporeishn, Sposob izgotovleniya zaschitnoi niti, pat. 2188268 RU, MPK D 21 H 21/42, B 42 D 15/00, B 41 M 3/14, No 2000124869/12, zayavl. 26.02.99; opubl. 27.08.2002; Патенты России. Сводный индекс. RU 15.01.1994-27.03.2010. Описания полезных моделей. Электрон. текстовые дан., ФГУ ФИПС, М., 2010, 1 электрон. опт. диск (CD-ROM): цв.

[14] Dzong-Kiu Kim, Iong-Khvan Park; zayavitel Koreya Sekyuriti Printing End Minting Korporeishn, Sposob izgotovleniya zaschitnogo volokna, zaschitnoe volokno i zaschischennaya ot poddelki bumaga, pat. 2190716 RU, MPK D 21 H 21/40, D 44 F 1/12, No 2000124882/12, zayavl. 26.02.99; opubl. 10.09.99; Патенты России. Сводный индекс. RU 15.01.1994-27.03.2010. Описания полезных моделей. Электрон. текстовые дан., ФГУ ФИПС, М., 2010, 1 электрон. опт. диск (CD-ROM): цв.

[15] A. E. Mikushev, M. P. Golomazova, S. Yu. Vyazalov i dr.; zayavitel Ob'edinenie «Goznak», Okrashennoe khimicheskoe mnogofilamentnoe volokno dlya zaschity bumagi ot poddelki, pat. 2217543 RU, MPK D 21 H 21/40, D 21 H 21/42, B 42 D 15/00, B 44 F 1/12, No 2002122542/12, zayavl. 22.08.02; opubl. 27.11.03; ФГУ ФИПС, М., 2010, 1 электрон. опт. диск (CD-ROM): цв.

[16] N. V. Kuzmenkova i dr., “Tekhnologii polucheniya okrashennykh khimicheskikh volokon dlya zaschity tsennykh bumag”, Materialy, tekhnologii, instrumenty, 17:1 (2012), 83–87 | MR

[17] L. S. Pinchuk, N. V. Kuzmenkova, V. A. Goldade i dr.; zayavitel IMMS NAN Belarusi, Ustroistvo dlya preryvistogo okrashivaniya khimicheskikh volokon, zayavka No a20111216 ot 19.09.2011 g. na vydachu patenta RB na izobretenie, MPK D06B 1/02, D06B 3/02, reshenie o vydache patenta na izobretenie ot 13.02.2014 g., opubl. 30.04.2013

[18] K. E. Perepelkin, Struktura i svoistva volokon, Khimiya, M., 1985, 208 pp.