weaves and knitted fabrics, volume resistivity (standardized method) and its electromagnetic shield<strong>in</strong>gefficiency, Percolation threshold, dependence <strong>of</strong> total shield<strong>in</strong>g effectiveness SE on the amount <strong>of</strong>conductive component P <strong>in</strong> hybrid yarn or open<strong>in</strong>g size <strong>of</strong> conductive grid and dependence <strong>of</strong> total shield<strong>in</strong>geffectiveness SE on volume resistivity, metal grids <strong>for</strong> higher SE, Dependence between volume resistivityand SE <strong>for</strong> samples, Specially designed fabrics with <strong>in</strong>creased resistivity to electromagnetic smog hav<strong>in</strong>gwear<strong>in</strong>g thermo physiological com<strong>for</strong>t, Negative effect <strong>of</strong> addition <strong>of</strong> metal fiber on abrasion resistance <strong>of</strong>fabric.Theme: Application <strong>of</strong> Plasma, Microwave, Laser and Ozonization <strong>in</strong> Surface ActivationSupervisor: pr<strong>of</strong>. Ing. Jakub Wiener, <strong>Ph</strong>.D.Supervisor specialist: Pr<strong>of</strong>. Jiří MilitkýContact email <strong>for</strong> more <strong>in</strong><strong>for</strong>mation: jakub.wiener@tul.cz, jiri.militky@tul.czAtmospheric plasma technology, Industrial applications. functionaliz<strong>in</strong>g, and design <strong>of</strong> surface properties <strong>of</strong>textile fibres, Plasma technology to modify the chemical structure as well as the topography <strong>of</strong> the surface <strong>of</strong>the material, plasma treatment <strong>of</strong> textile materials, shr<strong>in</strong>k-resist treatment, <strong>of</strong> wool with a simultaneouslypositive effect on the dye<strong>in</strong>g and pr<strong>in</strong>t<strong>in</strong>g, modification <strong>of</strong> the topography <strong>of</strong> the surface, highly hydrophobicsurface, face topography <strong>in</strong> contact with water, dust- and dirt-repellent surfaces, repellence to bacteria andfungi, Man-made fibers to be used under chemical stress are modified with diffusion-barrier layers on theirsurfaces without modify<strong>in</strong>g the bulk properties, microwave applications <strong>for</strong> polymer solutions, Surfacetreatment with laser beam, ozonization <strong>of</strong> textile surfaces, Improv<strong>in</strong>g the fibre adhesion, by various surfacetreatment techniques, non-thermal ozone technology, effect on surface morphology, <strong>Ph</strong>ase change material(PCM) applications to textiles.Theme: Bio Active Sensors <strong>for</strong> Detection <strong>of</strong> Toxicity Hazards <strong>of</strong> Textile ProductsSupervisor: pr<strong>of</strong>. Ing. Jiří Militký, CSc.Supervisor specialist: assoc. pr<strong>of</strong>. Rajesh MishraContact email <strong>for</strong> more <strong>in</strong><strong>for</strong>mation: jiri.militky@tul.cz, rajesh.mishra@tul.czBiosensors, actuators, and control units, toxicity <strong>in</strong> textile materials, detection techniques, hazardouschemicals limit, conduct<strong>in</strong>g polymers on textile surfaces, nanoparticles and nanocoat<strong>in</strong>gs, composite fibres,biological protection, antibacterial, antifungal applications, UV protection, gas sensation, odor absorption,bio-smart materials <strong>for</strong> sports, medical, sanitary, child care, military and fashion applications.Theme: Prediction <strong>of</strong> Hand and Com<strong>for</strong>t Properties <strong>of</strong> TextilesSupervisor: assoc. pr<strong>of</strong>. Rajesh MishraSupervisor specialist: pr<strong>of</strong>. Ing. Jiří Militký, CSc. and doc. Dr Ing. Dana KřemenákováContact email <strong>for</strong> more <strong>in</strong><strong>for</strong>mation: rajesh.mishra@tul.cz, jiri.militky@tul.cz, dana.kremenakova@tul.czTools <strong>for</strong> predict<strong>in</strong>g hand and com<strong>for</strong>t properties, prediction <strong>of</strong> drape ability, correlation <strong>of</strong> hand parametersto mechanical properties, express<strong>in</strong>g the quality based on complex variant evaluation, objective evaluation <strong>of</strong>textiles quality, complex optimization <strong>of</strong> textiles manufactur<strong>in</strong>g process <strong>in</strong> respect <strong>of</strong> their required utility,application <strong>of</strong> the computer aided textile design, F<strong>in</strong>ite element analysis <strong>of</strong> structure property relationships,predict<strong>in</strong>g air permeability, moisture transfer, heat transfer by numerical tools, correlation to porosity,model<strong>in</strong>g and simulation <strong>of</strong> thermal conductivity and convection through fibrous structures, characterization<strong>of</strong> results us<strong>in</strong>g suitable statistical tools.Theme: Relationship between anisotropy <strong>of</strong> bend<strong>in</strong>g rigidity and drape pr<strong>of</strong>ile <strong>of</strong> fabricSupervisor: Ing. Ludmila Fridrichová, <strong>Ph</strong>.D.Contact email <strong>for</strong> more <strong>in</strong><strong>for</strong>mation: ludmila.fridrichova@tul.czThe woven fabric is anisotropic and exhibits different values <strong>of</strong> mechanical properties <strong>in</strong> different directions.The work aims are to f<strong>in</strong>d the theoretical relationships between the anisotropy <strong>of</strong> bend<strong>in</strong>g rigidity <strong>of</strong> the fabricand the creation <strong>of</strong> its drape pr<strong>of</strong>ile. The drape pr<strong>of</strong>ile exhibits cyclic changes <strong>of</strong> the drape shape <strong>in</strong> the polardiagram when the same fabric is dynamically stressed. The experimental <strong>study</strong> will be based on thedevelopment <strong>of</strong> the <strong>in</strong>strument and s<strong>of</strong>tware <strong>for</strong> measurement <strong>of</strong> the dynamic drape coefficient. Thetheoretical part aims at the description <strong>of</strong> the mathematical model <strong>for</strong> the prediction <strong>of</strong> the drape pr<strong>of</strong>ile <strong>of</strong> thefabric. The research <strong>of</strong> bend<strong>in</strong>g rigidity and drape is important <strong>for</strong> the improvement <strong>of</strong> the appearance <strong>of</strong>fabrics.TECHNICAL UNIVERSITY OF LIBEREC | Faculty <strong>of</strong> Textile Eng<strong>in</strong>eer<strong>in</strong>g | Studentská 1402/2 | 461 17 Liberec 1tel.: +420 485 353258 | www.ft.tul.cz | IČ: 467 47 885 | DIČ: CZ 467 47 885
Theme: Theoretical analysis <strong>of</strong> the transport phenomena <strong>of</strong> temperature and humidity dur<strong>in</strong>g iron<strong>in</strong>gand shap<strong>in</strong>g <strong>of</strong> fabrics.Supervisor: doc. Ing. Antonín Havelka, CSc,Supervisor specialist: Ing. Blažena Musilová, <strong>Ph</strong>.D.Contact email <strong>for</strong> more <strong>in</strong><strong>for</strong>mation: anton<strong>in</strong>.havelka@tul.cz, blazena.musilova@tul.czTheoretical explanation <strong>of</strong> the process <strong>of</strong> iron<strong>in</strong>g and shap<strong>in</strong>g. Monitor<strong>in</strong>g changes <strong>in</strong> the mechanicalproperties <strong>of</strong> woven and knitted fabrics due to temperature and humidity, evaluation <strong>of</strong> heat transfer andmoisture.Theme: Crease prediction based on the mechanical properties <strong>of</strong> fabrics.Supervisor: doc. Ing. Antonín Havelka, CSc,Supervisor specialist: Ing. Ludmila Fridrichová, <strong>Ph</strong>.D.Contact email <strong>for</strong> more <strong>in</strong><strong>for</strong>mation: anton<strong>in</strong>.havelka@tul.cz, ludmila.fridrichova@tul.czStudy <strong>of</strong> the <strong>in</strong>fluence <strong>of</strong> structural parameters <strong>of</strong> cloth<strong>in</strong>g fabrics which is reflect<strong>in</strong>g <strong>in</strong> their mechanicalproperties and subsequently to the garments creas<strong>in</strong>g, creas<strong>in</strong>g prediction by parametric and non-parametricregression (neural networks) based on the identification <strong>of</strong> mechanical and structural properties <strong>of</strong> textileswhich have the highest affect <strong>of</strong> the f<strong>in</strong>al creas<strong>in</strong>g.Theme: Theoretical analysis <strong>for</strong> the <strong>in</strong>fluence <strong>of</strong> mechanical properties like elasticity on 3D garmentconstruction.Supervisor: doc. Ing. Antonín Havelka, CSc,Contact email <strong>for</strong> more <strong>in</strong><strong>for</strong>mation: anton<strong>in</strong>.havelka@tul.czEvaluation <strong>of</strong> mechanical properties <strong>of</strong> fabrics. Study <strong>of</strong> anisotropic behaviours <strong>of</strong> the fabrics. Study <strong>of</strong> theeffects <strong>of</strong> compression elastic clothes on the human body surface. An methodology development <strong>of</strong> the <strong>in</strong>putparameters determ<strong>in</strong>ation <strong>for</strong> the 3D design elastic garments.Theme: Theoretical evaluation <strong>of</strong> national somatotypes with emphasis on cloth<strong>in</strong>g size system.Supervisor: Doc. Ing. Antonín Havelka, CSc,Supervisor specialist: Ing. Blažena Musilová, <strong>Ph</strong>.D.Contact email <strong>for</strong> more <strong>in</strong><strong>for</strong>mation: anton<strong>in</strong>.havelka@tul.cz, blazena.musilova@tul.czClassification <strong>of</strong> national somatotypes with the help <strong>of</strong> statistical analysis method <strong>of</strong> the nationalsomatometric data. Study <strong>of</strong> the proportion can be expressed between the primary body dimensions whichdef<strong>in</strong>e the size <strong>of</strong> particular cloth<strong>in</strong>g product accord<strong>in</strong>g to the standards "Size designation <strong>of</strong> clothes".Theme: Measurement <strong>for</strong> Transfer <strong>of</strong> heat and moisture to the air from garments.Supervisor: Doc. Ing. Antonín Havelka, CSc, e-mail:Assistant supervisor: Dr.P. Komárková, e-mail:Contact email <strong>for</strong> more <strong>in</strong><strong>for</strong>mation: anton<strong>in</strong>.havelka@tul.cz, petra.komarkova@tul.czStudy <strong>of</strong> thermal-<strong>in</strong>sulat<strong>in</strong>g properties <strong>of</strong> cloth<strong>in</strong>g materials at extreme climatic conditions <strong>in</strong> flow<strong>in</strong>g air (w<strong>in</strong>d)with velocities <strong>in</strong>terval 5-20 m/s. Study <strong>of</strong> speed <strong>of</strong> flow<strong>in</strong>g air (w<strong>in</strong>d), temperature <strong>of</strong> flow<strong>in</strong>g air,characteristic properties <strong>of</strong> fabrics (e.g. porosity and so on) on model <strong>of</strong> human arm tested <strong>in</strong> w<strong>in</strong>d tunnel.Theme: Modell<strong>in</strong>g the logistics outsourc<strong>in</strong>g phenomena <strong>in</strong> the manufacture <strong>of</strong> cloth<strong>in</strong>g.Supervisor: Doc. Ing. Antonín Havelka, CSc, e-mail:Supervisor specialist: Ing. Petra Komárková, <strong>Ph</strong>.D. e-mail:Contact email <strong>for</strong> more <strong>in</strong><strong>for</strong>mation: anton<strong>in</strong>.havelka@tul.cz, petra.komarkova@tul.czTheoretical analysis <strong>of</strong> logistics <strong>in</strong> the outsourced manufactur<strong>in</strong>g <strong>of</strong> garments and <strong>in</strong>fluence the creation anddesign <strong>of</strong> clothes, <strong>in</strong>clud<strong>in</strong>g the impact <strong>of</strong> creative proposals <strong>for</strong> the type <strong>of</strong> cloth<strong>in</strong>g.Theme: Modell<strong>in</strong>g the physiological com<strong>for</strong>t <strong>of</strong> garments from parameters based on microtomographicanalysis.Supervisor: Doc. Ing. Antonín Havelka, CSc,Supervisor specialist: Ing. Viera Glombíková, <strong>Ph</strong>.D.Contact email <strong>for</strong> more <strong>in</strong><strong>for</strong>mation: anton<strong>in</strong>.havelka@tul.cz, viera.glombikova@tul.czTECHNICAL UNIVERSITY OF LIBEREC | Faculty <strong>of</strong> Textile Eng<strong>in</strong>eer<strong>in</strong>g | Studentská 1402/2 | 461 17 Liberec 1tel.: +420 485 353258 | www.ft.tul.cz | IČ: 467 47 885 | DIČ: CZ 467 47 885