This project was co-financed with state support of the CR Technological Agency as part of Programu aplikovaného výzkumu a experimentálního vývoje ALFA
www.tacr.cz
Research useful for society.

Project detail

Využití plazmové nanotechnologie pro kompozity s vysokými užitnými vlastnostmi

Duration: 01.07.2011 — 31.12.2016

Funding resources

Technologická agentura ČR - Program aplikovaného výzkumu a experimentálního vývoje ALFA

- whole funder (2011-07-01 - 2016-12-31)

On the project

Výsledkem je technologická aparatura (prototyp) využívající plazmovou nanotechnologii pro depozici vrstev a vrstevnatých struktur na svazky vláken v kontinuálním režimu. Jde o modulární systém zahrnující předúpravu vláken, depozici vrstvy a finální úpravu vláken. Aparatura umožní nezávisle nastavovat technologické podmínky pro všechny segmenty zpracování povrchu vláken. Zařízení sestává z čerpacích systémů pro zajištění vakua, výkonových zdrojů, dávkování plynů a par monomerů a převíjejícího zařízení.

Description in English
The result is a technological apparatus (prototype), which uses a plasma nanotechnology for the deposition of layers and structures of stacked bundles of fibers in a continuous mode. It is a modular system that includes pre-treatment of fibres, the deposition of the layers and the final adjustment of the fibres. The equipment allows to independently set the technological conditions for all segments of the processing of the surface fibres. The equipment consists of pumping systems to ensure the vacuum, power sources, the dosage of gases and vapours of monomers and převíjejícího devices.

Keywords
Kompozity, nanotechnologie, plazma, vlákna

Key words in English
Composites, nanotechnology, plasma, fibers

Mark

TA01010796

Default language

Czech

People responsible

Čech Vladimír, prof. RNDr., Ph.D. - principal person responsible

Units

Institute of Materials Science
- (2011-07-01 - 2016-12-31)
Faculty of Chemistry
- (2011-07-12 - not assigned)

Results

SVĚRÁK, T.; ŠTEVULOVÁ, N.; EŠTOKOVÁ, A.; SIKOROVÁ, K. The Moisture Content of Powdered Materials Continuous Measurement Possibilities. In IX. International Scientific Conference of Faculty of Civil Engineering. Košice, SK: TUKE, 2012. p. 1-5. ISBN: 9788055309057.
Detail

ŠIRJOVOVÁ, V.; ZVONEK, M.; JURKO, M.; ČECH, V. Shear Strength Range of GF/Polyester Composites Controlled by Plasma Nanotechnology. Polymers, 2023, vol. 15, no. 16, p. 1-7. ISSN: 2073-4360.
Detail

ČECH, V.; KNOB, A.; HOSEIN, H.; BÁBÍK, A.; DRZAL, L. Enhanced Interfacial Adhesion of Glass Fibers by Tetravinylsilane Plasma Modification. In Proc. Int. Conf. Composite Interfaces (Interface 21). 2012. p. 1-4.
Detail

ČECH, V.; PÁLESCH, E.; LUKEŠ, J. The Fiber-Polymer Matrix Interface/Interphase Characterized by Nanoscale Imaging Techniques. In Proc. Int. Conf. Composite Interfaces (Interface 21). 2012. p. 1-4.
Detail

ČECH, V.; BÁBÍK, A.; KNOB, A.; PÁLESCH, E. Plasma polymers used for controlled interphase in polymer composites. In Proc. 13th Int. Conf. Plasma Surface Engineering. 2012. p. 1-5.
Detail

PÁLESCH, E.; KONTÁROVÁ, S.; ČECH, V. Mechanical properties of plasma polymer films controlled by RF power. In Proc. 13th Int. Conf. Plasma Surface Engineering. 2012. p. 1-4.
Detail

ČECH, V.; PÁLESCH, E.; LUKEŠ, J. The glass fiber-polymer matrix interface/interphase characterized by nanoscale imaging techniques. Composites Science and Technology, 2013, vol. 83, no. 6, p. 22-26. ISSN: 0266-3538.
Detail

ČECH, V. Pulsed Plasma Used to Control Properties of a-SiOC:H Alloys. In Proceedings 7th Asia-Pacific Int. Symp. Basics Appl. Plasma Technology (APSPT-7). 2012. p. 1-4.
Detail

ČECH, V.; BRÁNECKÝ, M. Synthesis of thin-film materials using nonthermal plasma at a higher degree of dissociation. Plasma Processes and Polymers, 2023, vol. 20, no. 7, p. 1-11. ISSN: 1612-8869.
Detail

JURKO, M.; SOUČKOVÁ, L.; PROKEŠ, J.; ČECH, V. The effect of glass fiber storage time on the mechanical response of polymer composite. Polymers, 2022, vol. 14, no. 21, p. 1-9. ISSN: 2073-4360.
Detail

ČECH, V.; KNOB, A.; HOSEIN, H.; BÁBÍK, A.; LEPCIO, P.; ONDREÁŠ, F.; DRZAL, L. Enhanced interfacial adhesion of glass fibers by tetravinylsilane plasma modification. COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING, 2014, vol. 58, no. 1, p. 84-89. ISSN: 1359-835X.
Detail

HOFEREK, L.; MISTRÍK, J.; TRIVEDI, R.; CHEN, K.; PEŘINA, V.; ČECH, V. Multilayer and functionally gradient films of plasma polymers intended as compatible interlayers for hybrid materials. Surface and Coatings Technology, 2014, vol. 254, no. 1, p. 49-53. ISSN: 0257-8972.
Detail

SVĚRÁK, T.; BULEJKO, P.; ŠÍPKOVÁ, H. Advances in Geopolymer Membrane Filtration Mechanical Properties. 2014 Membrane Technology Conference and Exposition. Las Vegas, Nevada, USA, 2014: American Water Works Association, 2014.
Detail

KNOB, A.; BÁBÍK, A.; ČECH, V.; DRZAL, L. Mechanical response of plasma polymer interlayers in polymer composites. 2014. p. 1 (1 s.).
Detail

KUCHARČÍK, J.; MISTRÍK, J.; ČECH, V. Optical properties of isotropic and anisotropic films deposited by pulsed plasma. 2014. p. 1 (1 s.).
Detail

ČECH, V.; HOFEREK, L.; TRIVEDI, R.; KONTÁROVÁ, S. Monomer deficient conditions used to control physical properties of plasma polymer films in wide ranges by RF power. 2014. p. 1 (1 s.).
Detail

ČECH, V.; KNOB, A.; PÁLESCH, E.; KUCHARČÍK, J.; PLICHTA, T. Plasma Processing of Glass-Fiber Reinforcements for Polymer Composites. Kerala, India: 2014. p. 1 (1 s.).
Detail

ČECH, V.; KNOB, A.; PÁLESCH, E.; KUCHARČÍK, J.; PLICHTA, T. Plasma Processing of Glass-Fiber Reinforcements for Polymer Composites. 2014.
Detail

KNOB, A.; ČECH, V.; BÁBÍK, A.; ONDREÁŠ, F.; LEPCIO, P.; HOSEIN, H.; DRZAL, L. Plazmatická úprava povrchu skleněných vláken tetravinylsilanem za účelem zvýšení mezifázové adheze v polymerních kompozitech. In Polymerní kompozity 2015. Ostrava: 2015. s. 153-161. ISBN: 978-80-905224-2-8.
Detail

ČECH, V.; LUKEŠ, J.; PÁLESCH, E.; LASOTA, T. Elastic Modulus and Hardness of Plasma-Polymerized Organosilicones Evaluated by Nanoindentation Techniques. Plasma Processes and Polymers, 2015, vol. 12, no. 9, p. 864-881. ISSN: 1612-8850.
Detail

ČECH, V.; LASOTA, T.; PÁLESCH, E.; LUKEŠ, J. The critical influence of surface topography on nanoindentation measurements of a-SiC:H films. Surface and Coatings Technology, 2015, vol. 261, no. 1, p. 114-121. ISSN: 0257-8972.
Detail

ČECH, V. Glass Fibers: Plasma Modification for Improved Interfacial Adhesion. In Encyclopedia of Plasma Technology. Encyclopedia Program. USA: Taylor & Francis, 2016. p. 1-15. ISBN: 9781466500594.
Detail

ČECH, V.; BRÁNECKÝ, M. Continuous surface modification of glass fibers in a roll-to-roll plasma-enhanced CVD reactor for glass fiber/polyester composites. COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING, 2019, vol. 121, no. 6, p. 244-253. ISSN: 1878-5840.
Detail

VYSKOČIL, J.; PLÍHAL, P.; VALTER, J.; MAREK, A.; KADLEC, S.; ČECH, V.: R2R – 2 trubice; Roll-to-roll aparatura pro plazmochemickou úpravu svazku vláken. HVM Plasma, Praha. (funkční vzorek)
Detail

VYSKOČIL, J.; PLÍHAL, P.; VALTER, J.; MAREK, A.; KADLEC, S.; ČECH, V.: R2R, Y399; Technologická aparatura pro roll-to-roll plazmochemickou úpravu svazku vláken. HVM Plasma, spol. s r.o., Praha. (prototyp)
Detail

ČECH, V.; VALTER, J.; PLÍHAL, P.; VYSKOČIL, J.: A4; Testovací modul. FCH VUT v Brně, Purkyňova 118, Brno. (funkční vzorek)
Detail

Responsibility: Čech Vladimír, prof. RNDr., Ph.D.