Browsing by Author "Čapek Lukáš"
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- ItemA method of scar evaluation using non-contact 3D scanner(Taylor and Francis, 2015-01-01) Čapek Lukáš; Mitbauerová Alexandra; Ogawa Rei
- ItemBall burst test of silica nonwoven material(Technical University of Liberec, 2017-01-01) Poupeney Clothilde; Čapek Lukáš; Veverková Ivana; Lovětinská Šlamborová Irena
- ItemBiodegradable replacement of knee ligament(2019-01-01) Čapek Lukáš
- ItemBiomechanical comparison of cemented versus non-cemented anterior screw fixation in type II odontoid fractures in the elderly: a cadaveric study(Elsevier, 2018-01-01) Řehoušek Petr; Jenner Edward; Holton James; Czyz Marcin; Čapek Lukáš; Henyš Petr; Kulvajtova Marketa; Krbec Martin
- ItemBuckling behaviour of polyester fibres: influence of their material heterogeneity(Taylor and Francis, 2020-01-01) Demestre Louise; Henyš Petr; Čapek Lukáš; Tomková Blanka; Moravec Jaromír
- ItemCement Augmentation of Odontoid Peg Fractures: the Effect of Cement Volume And Distribution on Construct Stiffness(Springer Nature, 2020-01-01) Čapek Lukáš; Řehoušek Petr; Henyš Petr; Bleibleh Sabri; Jenner Edward; Kulvajtova Marketa; Skala-Rosenbaum Jiří
- ItemCLOTHING-BODY INTERACTION 2021(2021-01-01) Kyosev Yordan; Čapek Lukáš
- ItemCompressional stability of optical fibres: a combined experimental and computer study(Springer, 2018-01-01) Čapek Lukáš; Henyš Petr; Placet Vincent; Kolčavová Sirková Brigita
- ItemComputed modeling of humeral mid-shaft fracture treated by bundle nailing(Taylor and Francis, 2016-01-01) Obruba Petr; Čapek Lukáš; Henyš Petr; Kopp Lubomír
- ItemCourse of finite element method in textile engineering(2018-01-01) Čapek Lukáš; Henyš Petr
- ItemCourse on finite element method in textile engineering(2020-01-01) Čapek Lukáš; Kyosev Yordan
- ItemCourse on finite element method in textile engineering(2021-01-01) Čapek Lukáš
- ItemDental implantology(Artilis, 2017-01-01) Barilliová Lenka; barták Petr; Bílý Boris; Cierny Michal; Čapek Lukáš; Dostálová Tatjána; Dřízhal Ivo; Dufková Dita; Dzan Ladislav; Eliáš Adolf; Exnerová Martina; Fassmannn Antonín; Foltán René; Hrkal Jiří; Hollá Lidie; Jirkalová Radana; Kapitán Martin; Keller Eugene; Kopecká Dana; Kořínek Pavel; Kovalová Eva; Krug Jiří; Krugová Alena; Mach Jan; Marek Ivo; Mazánek Jiří; Mounajjed Radek; Neméth Tibor; Novák Zdeněk; Páč Libor; Palička Vladimír; Pollak Georg; Slezák Radovan; Starosta Martin; Streblov Jan; Strnad Jakub; Strnad Zdeněk; Šimůnek Antonín; Šmucler Roman; Šusta Jiří; Šustová Zdeňka; Vaněk Jiří; Vavříčková Lenka; Vokurka Jan; Vosáhlo Tomáš; Zábrodský Vladimír
- ItemDETERMINATION OF OPTIMAL CONJUGATE STRESS STRAIN PAIRS(Slovak University of Technology in Bratislava., 2019-01-01) Stříž Bohuslav; Čapek Lukáš
- ItemDetermination of optimal conjugate stress strain pairs(Technical University of Liberec, 2018-01-01) Stříž Bohuslav; Čapek Lukáš
- ItemEvaluation of acetabular cup initial fixation by using resonance frequency principle(SAGE PUBLICATIONS LTD, 2015-01-01) Henyš Petr; Čapek Lukáš; Fencl Jaroslav; Procházka Egon
- ItemExtensometr for measuring of skin elasticity(2018-01-01) Čapek Lukáš; Kedlesová Erika; Pokorný Pavel; Lindauer Vojtěch
- ItemFailure of Sternal Wires Depends on the Number of Turns And Plastic Deformation: Combined Experimental And Computational Approach(OXFORD UNIV PRESS, 2018-01-01) Čapek Lukáš; Henyš Petr; Kaláb Martin; Solfronk Pavel
- ItemGraft orientation influences meshing ratio(ELSEVIER SCI LTD, 2018-01-01) Čapek Lukáš; Flynn Cormac; Molitor Martin; Chong Simon; Henyš Petr
- ItemHow does the surface treatment change the cytocompatibility of implants made by Selective Laser Melting?(Taylor & Francis, 2018-01-01) Ackermann Michal; Horáková Jana; Čapek Lukáš; Henyš Petr; Šafka Jiří; Matoušková LucieIntroduction: The study investigates the potential for producing medical components via Selective Laser Melting technology (SLM). The material tested consisted of the biocompatible titanium alloy Ti6Al4V. The research involved the testing of laboratory specimens produced using SLM technology both in vitro and for surface roughness. The aim of the research was to clarify whether SLM technology affects the cytocompatibility of implants and, thus, whether SLM implants provide suitable candidates for medical use following zero or minimum post-fabrication treatment. Areas covered: The specimens were tested with an osteoblast cell line and, subsequently, two post-treatment processes were compared: non-treated (as-fabricated) and glass-blasted. Interactions with MG-63 cells were evaluated by means of metabolic MTT assay and microscope techniques (scanning electron microscopy, fluorescence microscopy). Surface roughness was observed on both the non-treated and glass-blasted SLM specimens. Expert Commentary: The research concluded that the glass-blasting of SLM Ti6Al4V significantly reduces surface roughness. The arithmetic mean roughness Ra was calculated at 3.4 µm for the glass-blasted and 13.3 µm for the non-treated surfaces. However, the results of in vitro testing revealed that the non-treated surface was better suited to cell growth.
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