|
|
The Use of 3D Printers in Medicine
Shchennikov, Vladislav ; Froehling, Kenneth (referee) ; Šedrlová, Magdalena (advisor)
The text deals with a rapid development of three-dimensional printers, description of their general components, and the utilization of 3D printers in medicine. In our contemporary world, three-dimensional printers have appeared more recently and immediately were applied in various fields and industries. 3D printing is innovative and forward-looking technology that will unimaginably change people’s lives and will reduce an enormous amount of time and resources, that is spent on creating certain products. The opportunity of using such technology in different areas particularly in medicine are described in this bachelor thesis, as well as the differences between individual technologies and their advantages and disadvantages.
|
|
|
3D printing methods in automotive industry
Juhász, Vojtěch ; Zháňal, Lubor (referee) ; Fojtášek, Jan (advisor)
The bachelor thesis deals with the 3D printing methods in automotive industry. The introductory chapter describes the history and manufacturing process. Next chapter deals with the most used 3D printing technologies and following description of the printing and also most used basic materials. Last chapter is focused on mass and piece production in automotive industry.
|
|
|
The Use of 3D Printers in Medicine
Shchennikov, Vladislav ; Froehling, Kenneth (referee) ; Šedrlová, Magdalena (advisor)
Text se zabývá rychlým rozvojem trojrozměrných tiskáren, popsáním jejich obecných komponentů a využitím 3D tiskáren v medicíně. V našem současném světě se v poslední době objevily 3D tiskárny a byly okamžitě použity v různých oborech a průmyslech. 3D tisk je inovační a perspektivní technologie, která nepředstavitelně mění lidské životy a zkrátí obrovské množství času a zdroje, které se vynakládají na vytváření určitých produktů. V této bakalářské práce uvedené příležitosti využití těchto technologií v různých oblastech především v medicíně, stejně jako rozdíly mezi jednotlivými technologiemi a jejimi výhody a nevýhody.
|
|
|
Electrically conductive surfaces for 3D printed structures
Šomšák, Martin ; Mikulášek, Tomáš (referee) ; Láčík, Jaroslav (advisor)
This thesis describes the technical possibilities of coating various 3D printed structures by different coating methods. Different surface structures have been created on two models for two 3D printing technologies. Antennas on FR4 and PLA substrates were simulated. After adjusting the dimensions of the antennas in the simulations and the results obtained from the simulations, two speckle antennas on PLA substrate were created. To form the antennas, the substrate was coated with copper foil and electrically conductive spray. Subsequently, the antennas were measured, and the results were compared with the simulations.
|
|
|
Electrically conductive surfaces for 3D printed structures
Šomšák, Martin ; Mikulášek, Tomáš (referee) ; Láčík, Jaroslav (advisor)
This thesis describes the technical possibilities of coating various 3D printed structures by different coating methods. Different surface structures have been created on two models for two 3D printing technologies. Antennas on FR4 and PLA substrates were simulated. After adjusting the dimensions of the antennas in the simulations and the results obtained from the simulations, two speckle antennas on PLA substrate were created. To form the antennas, the substrate was coated with copper foil and electrically conductive spray. Subsequently, the antennas were measured, and the results were compared with the simulations.
|
|
|
Porovnání plastových výtisků vyrobených na vybraných modelech 3D tiskáren
JANOVSKÝ, Daniel
In this Bacherol Thesis I am comparing mechanical properties and a surface quality of selected samples, which were printed out using three different 3D printers. Input ma-teriál used for all three printers was plastic. A total of three tests will be performed on the printed samples to compare their properties, namely material tensile test, notch impact test and optical surface quality test. Different 3D printers will be used to print the samples, which are the Creality Ender-3 V2, the PRUSA i3 MK3 and a modified Tevo Tarantula printer with replaced components. The models were processed for 3D printing with PrusaSlicer.
|
|
|
3D printing methods in automotive industry
Juhász, Vojtěch ; Zháňal, Lubor (referee) ; Fojtášek, Jan (advisor)
The bachelor thesis deals with the 3D printing methods in automotive industry. The introductory chapter describes the history and manufacturing process. Next chapter deals with the most used 3D printing technologies and following description of the printing and also most used basic materials. Last chapter is focused on mass and piece production in automotive industry.
|
|
|
The Use of 3D Printers in Medicine
Shchennikov, Vladislav ; Froehling, Kenneth (referee) ; Šedrlová, Magdalena (advisor)
Text se zabývá rychlým rozvojem trojrozměrných tiskáren, popsáním jejich obecných komponentů a využitím 3D tiskáren v medicíně. V našem současném světě se v poslední době objevily 3D tiskárny a byly okamžitě použity v různých oborech a průmyslech. 3D tisk je inovační a perspektivní technologie, která nepředstavitelně mění lidské životy a zkrátí obrovské množství času a zdroje, které se vynakládají na vytváření určitých produktů. V této bakalářské práce uvedené příležitosti využití těchto technologií v různých oblastech především v medicíně, stejně jako rozdíly mezi jednotlivými technologiemi a jejimi výhody a nevýhody.
|
|
|
The Use of 3D Printers in Medicine
Shchennikov, Vladislav ; Froehling, Kenneth (referee) ; Šedrlová, Magdalena (advisor)
The text deals with a rapid development of three-dimensional printers, description of their general components, and the utilization of 3D printers in medicine. In our contemporary world, three-dimensional printers have appeared more recently and immediately were applied in various fields and industries. 3D printing is innovative and forward-looking technology that will unimaginably change people’s lives and will reduce an enormous amount of time and resources, that is spent on creating certain products. The opportunity of using such technology in different areas particularly in medicine are described in this bachelor thesis, as well as the differences between individual technologies and their advantages and disadvantages.
|
guest ::
