COMPLEX PROCESSING OF METALLISED FABRICS BY ELECTROLYSIS
Abstract and keywords
Abstract (English):
The paper provides the need and economic efficiency of recycling metallised fabrics lost their functional properties. We selected the recycling options to ensure the total recovery of the fabrics containing metallic and polyamide yarns. We proposed the electrochemical technology involving cathodic separation of recyclable metals in the form of coatings firmly adhered to the surface of the cathode as the main method of metal threads recycling. By the experiments, there is a degradation of polyamide yarns and subsequently nitration in nitric acid as a result of preliminary operations before the electrolysis. Also we proposed a method for the utilisation of the resulting nitrated polyamide degradation products, providing them as oligomers for general purpose rubber compounds. The results agree with the possibility of obtaining a brilliant silver cathode precipitate strongly adherent to the surface of the cathode made of the nitroxide electrolyte. Obtained kinetic rules of electrochemical process of cathodic deposition of recycled metals indicate the presence of significant polarization at the initial moment of time during the discharge process of silver and copper cations.

Keywords:
metallised fabric, electrochemical technology, copper and silver cathodic coating, nitrided polyamide degradation products, oligomers, rubber compounds, electrochemical kinetics
Text
Text (PDF): Read Download
References

1. Suhorukova, I.V., Sheveyko A.N., Kiryuhancev-Korneev F.V., Shtanskiy D.V. Vliyanie sostava i sherohovatosti poverhnosti pokrytiy TiCaPCON–Ag na kinetiku vyhoda serebra v fiziologicheskiy rastvor // Izv. vuzov. Poroshkovaya metallurgiya i funkcional'nye pokrytiya. 2015. № 3. S. 53-61. URL: https://doi.org/10.17073/1997-308X-2015-3-53-61

2. Pavlov A.V., Podval'naya Yu.V., Efimova T.N. Proizvodstvo mnogosloynoy rezinotkanevoy plastiny dlya zaschity ot zhestkogo izlucheniya // Promyshlennoe proizvodstvo i ispol'zovanie elastomerov. Informacionnyy sbornik. 2018. T. 4. S. 18-22. URL: https://doi.org/10.24411/2071-8268-2018-10404

3. Sahabieva E.V., Ivanova S.N., Davletbaev I.G., Luchkin G.S., Nizameev I.R., Voronina L.V., Kadysheva E.Yu. Metallizirovannye tekstil'nye materialy dlya izgotovleniya medicinskoy odezhdy s vysokimi elektrostaticheskimi svoystvami // Vestnik Kazanskogo tehnologicheskogo universiteta. 2013. T. 16, № 22. S. 153-155.

4. Prikaz Minsporta Rossii ot 08.08.2016. № 944 "Pravila vida sporta "fehtovanie".

5. Pavlov A.V. O prichinah iznosa fehtoval'nogo snaryazheniya. // Tendencii razvitiya nauki i obrazovaniya. 2021. № 75, ch. 4. S.111-114. DOI:https://doi.org/10.18411/Ij-07-2021.

6. Otchet o deyatel'nosti Federacii fehtovaniya Rossii za 2021 god. URL: https://www.audit-it.ru/buh_otchet/7704112610_obshcherossiyskaya-sportivnaya-obshchestvennaya-organizatsiya-federatsiya-fekhtovaniya-rossii

7. Safonov P.E., Levakova N.M. Razrabotka struktur i tehnologii izgotovleniya termostoykih radiootrazhayuschih tkaney dlya kosmicheskih anten // Vestnik SibGAU. 2017. T. 18, № 1. S. 219-226.

8. Bersirova O.L., Byk S.V., Kublanovskiy V.S. Elektroosazhdenie serebra: Monografiya. Kiev: MIC MEDINFORM, 2013. 168 s.

9. Maksimova V.V., Loginova A.Yu. Obzor osnovnyh himicheskih metodov izvlecheniya v gidrometallurgii medi // Prioritetnye nauchnye napravleniya: ot teorii k praktike. 2013. № 7. URL: https:// cyberleninka.ru/article/n/-osnovnyh-himicheskih-metodov-izvlecheniya-v-gidromettaurgii-medi

10. National Library of Medicine. URL: https://pubchem.ncbi.nlm.nih.gov/compound/N-_6-Aminohexanoyl_-6-aminohexanoate.

11. Grigorenko V.G., Rubcova M.Yu., Uporov I.V., Ishtubaev I.V., Andreeva I.P., Scherbinin D.S., Veselovskiy A.V., Egorov A.M. Bakterial'nye serinovye beta-laktamazy TEM tipa: struktura i analiz mutaciy // Biomedicinskaya himiya. 2017. T. 63, № 6. S. 499-507. DOI:https://doi.org/10.18097/PBMC20176306499

12. Yasuyuki Kawashima, Taku Oki, Naoki Shibata, Yoshiki Higuchi, Yoshiaki Wakitani, Yusuke Matsuura, Yusuke Nakata, Masahiro Takeo, Daichiro Kato, Seiji Negoro. Molecular design of an enzyme decomposing nylon-6 byproduct from carboxyesterase with beta-lactamase fold // FEBS Magazine. 2009. Vol. 276, no. 9. R. 2547-2556. DOIhttps://doi.org/10.1111/j.1742-4658.2009.06978.x.

13. Tihomirov L.A. Issledovanie vzaimodeystviya poliamida-6 s butadien-nitril'nym kauchukom // Kauchuk i rezina. 2019. T. 78, № 6. S. 368-371.

14. Pavlov A.V., Solov'ev V.V. Osobennosti ekstrakcii plodov borschevika Sosnovskogo // Ot himii k tehnologii shag za shagom. 2021. T. 2, vyp. 2. S. 81-88. URL: http://chemintech.ru/index.php/tor/2021-2-2. DOIhttps://doi.org/10.52957/27821900_2021_02_81.

15. Kotuhova G.P., Anisimova N.N., Shestakova R.D., Ter-Oganesyan A.K., Habirova E.K. Sposob polucheniya affinirovannogo serebra // Zapiski Gornogo instituta. Promyshlennye biotehnologii. 2005. T. 165. S. 107-109.

16. Patrushev V.V., Bulganina L.P. Ekstrakciya neblagorodnyh metallov v affinazhe platinovyh metallov // Fundamental'nye issledovaniya. 2006. № 7. S. 25-25. URL: https://fundamental-research.ru/ru/article/view?id=5166.

17. Kotik F.I. Uskorennyy kontrol' elektrolitov, rastvorov i rasplavov: Spravochnik. M.: Mashinostroenie, 1978. 191 s.

Login or Create
* Forgot password?