Browsing by Author "Knížek Roman"
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- ItemAdvantages of a New Manufacturing Facility for the Production of Nanofiber(World Academy of Science, Engineering and Technology, 2016-01-01) Knížek Roman; Karhánková Denisa
- ItemCreation and development of universal outer clothing for the city and sports with an emphasis on maintaining comfort properties(Tampere University of Technology, Department of Materials Science, 2014-01-01) Bajzík Vladimír; Knížek Roman; Polanková Miroslava; Karhánková Denisa
- ItemCreation of Product Cards for Membrane Clothing Producers(Leigniz- Institute fur Interaktive Materialien e.V., 2015-01-01) Karhánková Denisa; Knížek Roman
- ItemDevelopment and Application of a New Apparatus for Moisture Measurement in Building Composites(MDPI, 2020-01-01) Frydrych Miroslav; Herclík Miroslav; Klaban Michal; Knížek Roman; Fridrichová Ludmila
- ItemLamination of Nanofiber Layer(World Academy of Science, Engineering and Technology, 2015-01-01) Knížek Roman; Karhánková Denisa; Fridrichová Ludmila
- ItemLamination of nanofibre layers for clothing applications(INST CHEMICAL FIBRES, 2019-01-01) Knížek Roman; Knížková Denisa; Bajzík Vladimír; Jirsák Oldřich
- ItemMenstruation briefs with a membrane(2018-01-01) Knížek Roman; Knížková Denisa
- ItemMethod of increasing hydrostatic resistance of polymeric nanofiber layer, polymeric nanofiber layer with increased hydrostatic resistance and multilayer textile composite comprising at least one such layer(2015-01-01) Knížek Roman; Jirsák Oldřich; Wiener Jakub; Chaloupka Zdeněk
- ItemNanofiber membrane start-up(Scientific Technical Union Of Mechanical Engineering "INDUSTRY 4.0", 2019-01-01) Knížek Roman; Knížková Denisa
- ItemNanofibrous membrane as a moisture barrier(American Institute of Physics Inc., 2018-01-01) Fridrichová Ludmila; Frydrych Miroslav; Herclík Miroslav; Knížek Roman; Mayerová Karolína
- ItemNew Method of Measurement and Evaluation of Drape of Textiles(World Academy of Science, Engineering and Technology, 2015-01-01) Fridrichová Ludmila; Bajzík Vladimír; Knížek Roman
- ItemPermeable Water-Resistant Heat Insulation Panel Based on Recycled Materials and Its Physical and Mechanical Properties(MDPI, 2019-01-01) Hýsek Štěpán; Frydrych Miroslav; Herclík Miroslav; Fridrichová Ludmila; Louda Petr; Knížek Roman; Le Van Su; Chi Hiep Le
- ItemReport 2015(2015-01-01) Bajzík Vladimír; Karhánková Denisa; Knížek Roman
- ItemTechnical solution of personal data of clothing using nanocomposite barrier materials against industrial and CBRN substances. Part textiles(2019-01-01) Bajzík Vladimír; Knížek Roman; Knížková Denisa
- ItemThe hydrophobization of a nanofiber layer using low-vacuum plasma(Sciendo, 2019-01-01) Knížek Roman; Knížková, Denisa; Bajzík, VladimírNanofiber materials offer a wide range of use in various production fields, e.g., different types of filtration, or areas requiring high hydrostatic resistance. They are made from different polymers, some of which are more hydrophobic than others, for instance some types of polyurethanes and polyvinylidene fluoride. However, even these polyurethanes cannot guarantee a high hydrophobicity of the final nanofiber material. To increase this desired property, we have to use the so-called hydrophobic substances like fluorocarbon. The nanofiber layer has to be prepared so that its pores do not get blocked, which would worsen its filtration capability and air permeability. This is why a roll-to-roll low-vacuum plasma was used in our case for creating a fabric with nanofiber layer for the clothing industry. The result is a nanofiber material with a hydrostatic resistance higher than a 15,000 mm water column. Under suitable conditions, we can produce a nanofiber membrane for clothing with thermophysiological properties similar to those of membranes produced with different principles, e.g., nanoporous membranes. The nanofiber membrane provides us desirable properties such as stability during repeated washing.
- ItemThe hydrophobization of a nanofiber layer using low-vacuum plasma ( Articles not published yet, but available online Article in press About articles in press (opens in a new window) )(Sciendo, 2020-01-01) Knížek Roman; Knížková Denisa; Bajzík Vladimír