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Comparative Analysis of Electrospinning Methods for Producing Fibres and Materials with a Predicted Structure and Complex of Properties

Treść / Zawartość
Identyfikatory
Warianty tytułu
PL
Analiza porównawcza metod elektroprzędzenia do wytwarzania włókien i materiałów o przewidywanej strukturze i właściwościach
Języki publikacji
EN
Abstrakty
EN
Various industrial methods of electrospinning are considered. Experimental data of the results of electrospinning from solutions of chlorinated polyvinyl chloride, polyamide-6/66 and fluoroplastic F-42, obtained by various methods are presented.
PL
Rozważaniom poddano różne przemysłowe metody elektroprzędzenia. Przedstawiono dane doświadczalne wyników elektroprzędzenia z roztworów chlorowanego polichlorku winylu, poliamidu-6/66 i fluoroplastu F-42.
Rocznik
Strony
69--74
Opis fizyczny
Bibliogr. 33 poz., rys., tab.
Twórcy
autor
  • Electrospinning Scientific-Production Center Ltd, 117997, Sadovnicheskaia street 33-1, Moscow, the Russian Federation
autor
  • The Kosygin State University of Russia, Faculty of Chemical technology and Industrial Ecology, 117997, Sadovnicheskaia street 33-1, Moscow, the Russian Federation
  • MIREA – Russian Technological University (RTU MIREA), Russian Federation
  • Electrospinning Scientific-Production Center Ltd, 117997, Sadovnicheskaia street 33-1, Moscow, the Russian Federation
  • Kazimierz Pulaski University of Technology and Humanities in Radom, ul. Chrobrego 27, 26-600 Radom, Poland
  • The Kosygin State University of Russia, Faculty of Chemical technology and Industrial Ecology, 117997, Sadovnicheskaia street 33-1, Moscow, the Russian Federation
Bibliografia
  • 1. Arinstein A. Electrospun Polymer Nanofiber; Singapore: Jenny Stanford Publishing; 2017; 208 p.
  • 2. Filatov Yu, Budyka A, Kirichenko V. Electrospun Polymer Nanofiber. New York: Begell House Inc publ.; 2007; 404 p.
  • 3. Ramakrishna S, Fujihara K. An Introduction to Electrospinning and Nanofibers. Singapore: World Scientific Publishing Company; 2005, 396 p.
  • 4. Druzhinin EA. Proizvodstvo i svoistva filtruyuschich materialov Petryanova iz ultratonkich polimernych volokon. Moscow: IzdAT; 2007, 280 p.
  • 5. Asmatulu R, Khan WS. Synthesis and Applications of Electrospun Nanofibers. Amsterdam: Elsevier Science; 2018, 306 p.
  • 6. Rylkova MV, Bokova ES, Kovalenko GM, Filatov IYu. Use of Water-Soluble Polymers for Electrospinning Processing. Fibre Chemistry 2012; 44, 3: 146-148.
  • 7. Sonina AN, Uspenskii SA, Vikhoreva GA, Filatov YuN, Gal'braikh LS. Production of Nanofibre Materials from Chitosan by Electrospinning (Review). Fibre Chemistry 2011; 42, 6: 350-358.
  • 8. Sokolov VV, Kil'deeva NR, Filatov YN. Preparation of Ultrathin Fibers from Copolyacrylmethacrylate Eudragit E Solutions by Electroforming. Fibre Chemistry 2012; 43, 6: 406-411.
  • 9. Smul'skaya MA, Filatov YN. Optimization of Structure of Composite for Liquid Filtration Based on Membranes Produced by Electrospinning. Fibre Chemistry 2017; 49, 3: 195-199.
  • 10. Gladyshev NF, Gladysheva TV, Suvorova YuA, Putin SB, Filatov YuN, Smulskaya MA, Filatov IYu, Rodaev VV, Ermakov AA. Poluchenie voloknistyh ftorpolimernyh kompozitov dlya pogloscheniya dioksida ugleroda metodom elektroformovaniya. Kchiicheskaya Tehnologiya 2014; 15, 2: 102-105.
  • 11. Kapustin IA, Filatov IY, Filatov YN. Development of Production Technology for Non-Woven Filtering Materials for Monitoring Atmospheric Aerosols at RF Radionuclide Stations. Fibre Chemistry 2013; 44, 5: 299-303.
  • 12. Ol'khov AA, Akatov VS, Prosvirin AA, Staroverova OV, Iordanskii AL, Filatov YN, Gol'dshtrakh MA. Implants for Reconstructive Surgery Based on Electrospun Poly(3-hydroxybutyrate) fibers. Fibre Chemistry 2017; 49, 3: 222-226.
  • 13. Ekidin AA, Vasyanovich ME, Antonov KL, Markov DV, Markova ZhD, Kapustin IA, Filatov IY. Control of Aerosol and Gaseous Compounds of Iodine Isotopes in the Ventilation System of the IVV-2M Reactor Facility. Нysics of Atomic Nuclei 2018; 81, 10: 1494-1498.
  • 14. Kovalenko GM, Bokova ES, Mirontseva VV, Filatov IY. Electrospun Fibrous Materials Made of Collagen and Chitin Derivatives. Fibre Chemistry 2017; 48, 6: 466-469.
  • 15. Filatov IYu, Filatov YuN, Yakushkin MS. Elektroformovanie voloknistych materialov na osnove polimernych mikroi nanovolokon. Istoriya, teoriya, technologiya, primenenie. Vestnik MITCHT 2008; 3, 5: 3-18.
  • 16. Kozlov VA, Yakushkin MS, Филатов ЮН. Osobennosti apparaturnogo oformleniya prozessa elektroformovaniya polimernyh nano-и mikrovoloknistyh materialov. Vestnik MITCHT 2011; 6, 3: 28-33.
  • 17. Zhou F-L, Gong R-H, Porat I. Mass Production of Nanofibre Assemblies by Electrostatic Spinning. Polymer International 2009; 58, 4: 331-342.
  • 18. Niu H, Lin T. Fiber Generators in Needleless Electrospinning. Journal of Nanomaterials 2012; 1: 1-13.
  • 19. Luo CJ, Stoyanov SD, Stride E, Pelan E, Edirisinghe M. Electrospinning Versus Fibre Production Methods: from Specifics to Technological Convergence. Chemical Society Reviews 2012; 41, 13: 4708.
  • 20. Persano L, Camposeo A, Tekmen C, Pisignano D. Industrial Upscaling of Electrospinning and Applications of Polymer Nanofibers: a Review. Macromolecular Materials and Engineering 2013; 298, 5: 504-520.
  • 21. Saleh Hudin HS, Mohamad EN, Mahadi WNL, Muhammad Afifi A. Multiple-Jet Electrospinning Methods for Nanofiber Processing: A Review. Materials and Manufacturing Processes 2017; 33, 5: 479-498.
  • 22. Doshi J, Reneker DH. Electrospinning Process and Applications of Electrospun Fibers. Journal of Electrostatics 1995; 35, 2-3: 479-498.
  • 23. Yamashita Y, Ko F, Miyake H, Higashiyama A. Establishment of Nanofiber Preparation Technique by Electrospinning. FIBER 2008; 64, 1: 24-28.
  • 24. Yang Y, Jia Z, Li Q, Hou L, Liu J, Wang L, Zahn M. A Shield Ring Enhanced Equilateral Hexagon Distributed Multi-Needle Electrospinning Spinneret. IEEE Transactions on Dielectrics and Electrical Insulation 2010; 17, 5: 1592-1601.
  • 25. Wu Y-K, Wang L, Fan J, Shou W, Liu Y. A Double-Switching Voltage: Controlling Multiple Jets in Electrospinning. Materials Letters 2018; 233: 359-362.
  • 26. Petrik S, Maly M. Production Nozzle-Less Electrospinning Nanofiber Technology. MRS Proceedings 2009; 1, 5: 1240.
  • 27. Forward Keith M, Rutledge Gregory C. Free Surface Electrospinning from a Wire Electrode. Chemical Engineering Journal 2012; 183, 5: 492-503.
  • 28. Yalcinkaya F. Preparation of Various Nanofiber Layers Using Wire Electrospinning System. Arabian Journal of Chemistry 2016; 1: 134-135.
  • 29. Um IC, Fang D, Hsiao BS, Okamoto A, Chu B. Electro-Spinning and Electro-Blowing of Hyaluronic Acid. Biomacromolecules 2004; 5, 4: 1428-1436.
  • 30. Lin Y, Yao Y, Yang X, Wei N, Li X, Gong P, Wu D. Preparation of Poly(Ether Sulfone) Nanofibers by Gas-Jet/Electrospinning. Journal of Applied Polymer Science 2007; 107, 2: 909-917.
  • 31. Hsiao H-Y, Huang C-M, Liu Y-Y, Kuo Y-C, Chen H. Effect of Air Blowing on the Morphology and Nanofiber Properties of Blowing-Assisted Electrospun Polycarbonates. Journal of Applied Polymer Science 2012; 124, 6: 4904-4914.
  • 32. Weitz RT, Harnau L, Rauschenbach S, Burghard M, Kern K. P Polymer Nanofibers via Nozzle-Free Centrifugal Spinning. Nano Letters 2008; 8, 4: 1187-1191.
  • 33. Engström J, Hagström B. Centrifugal Spinning of Nano-Fiber Webs – A Parameter Study of A Novel Spinning Process. Nord. Text. J. 2009; 1: 83-91.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-18e6eb57-4033-43c0-9fe1-beb254b5e4ed
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