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Design of PET bottle recyclation device for creation of 3D printing filament
Huplík, Ondřej ; Kolomý, Štěpán (referee) ; Sedlák, Josef (advisor)
The rise in popularity of 3D printing and the increasing amount of plastic waste are putting an emphasis on finding new sustainable and environmentally friendly solutions. This thesis addresses the issue of recycling plastic materials and how PET plastic can be used in 3D printing. The theoretical part describes the current possibilities of plastic recycling. The practical part focuses on the design of a device that accepts a PET bottle strip and converts it into filament by bringing it above the glass transition temperature. The device is designed with cost and compactness in mind. The device can be further improved and adapted for different types of plastic materials.
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Design of manufacturing technology of a composite part using out of autoclave prepregs
Tellinger, Adam ; Gregor, Lukáš (referee) ; Kupčák, Radim (advisor)
This master’s thesis deals with the production of a composite part from prepregs using non-autoclave technology. The first part of the thesis is research of composite materials and composite manufacturing technologies. This is followed by a section that focuses on non-autoclave methods of manufacturing composite parts using prepregs. The practical part includes the design of several prototype production variants of the specified part and subsequent production of the part. The output is an evaluation of the achieved results, a comparison of the various production methods, the selection of a suitable production technology variant, and the creation of a technological guideline for this chosen method of composite part manufacturing.
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Design of antenna for LoRaWAN module
Paulysko, Tomáš ; Láčík, Jaroslav (referee) ; Bednarský, Vojtěch (advisor)
This bachelor thesis focuses on the design, optimization, and implementation of compact antennas for LoRaWAN modules operating in the European 868 MHz frequency band. The goal is to create antennas that are not only effective and compact but also easily integrated into 3D printed enclosures of IoT devices. During the work, three different configurations of microwave structures containing antennas were designed and numerically modeled. These antennas were subsequently manufactured and tested. The measurements demonstrated their ability to achieve a reflection coefficient below -15 dB. The best structure achieved a realized gain of 1.13 dBi. The work also highlights the need for further tuning and adaptation of antennas to ensure optimal parameters in various applications.
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Production preparation in business model
Čermáková, Lucie ; Videcká, Zdeňka (referee) ; Juřica, Pavel (advisor)
This master thesis deals with the design of technological preparation of production and product manufacturing together with the design of a model company established in the premises of the LAPROCO business process management laboratory. This model enterprise is intended to support the teaching of the Bachelor's degree programme in Process Management. The analysis describes the laboratory including its equipment and the curriculum and its content. The design part then deals with the outline of the model enterprise and its activities.
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Assessment of 3D printing technology as an alternative in manufacturing
Balvín, Patrik ; Šafl, Pavel (referee) ; Binar, Tomáš (advisor)
This bachelor thesis is devoted to 3D printing. The main methods od 3D printing, widely used materials (their production, their properties and the advantages and disadvantages of using them), degradation due to enviromental conditions, other common methods of producing polymer parts and mechanical test are described in the theoretical part. This paper also compares the advantages of using 3D printing for prototyping. The experimental section is dedicated to measuring the impact of material degradation on the toughness, hardness, and tensile strength of PLA and PA6 CF15 materials. The case study focuses on the design of an engine spark coil holder and a mobile workstation for 3D printing.
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Powder feeder design for multi-material metal 3D printing
Kulda, Martin ; Malý, Martin (referee) ; Grygar, Filip (advisor)
This bachelor thesis deals with the issue of multi-material metal 3D printing, specifically the method of material transfer between containers and powder application on the work surface. The aim of this bachelor thesis is to design, implement and test a dispensing device for refilling the coating head for multi-material metal 3D printing and to optimize the design of the coating head itself. Based on the research, conceptual designs were developed and subjected to a series of tests. The results of these tests led to the development of a specific design solution, including both the coating head and the dispensing device. These solutions were subsequently implemented and tested for key functions. The implemented solution enables reliable material transfer between containers as well as to the work surface. It also allows easy and quick exchange of the magazines themselves in case of printing a different set of materials.
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Description of fatigue behavior of additively manufactured polymer metamaterial structure
Helešicová, Petra ; Ševeček, Oldřich (referee) ; Trávníček, Lukáš (advisor)
Metamateriály jsou v posledních letech velmi často zkoumanou oblastí, jelikož umožňují přizpůsobení mechanických vlastností vyráběných součástí, které není možné získat s využitím konvenčních materiálů. Aby bylo možné metamateriály bezpečně využívat v provozu, je nutné popsat jejich chování při zatěžování. Prezentovaná diplomová práce je zaměřena na popis únavového chování 3D tištěné polymerní metamateriálové struktury. Práce je rozdělena na teoretickou a praktickou část. V teoretické části je provedena rešerše metamateriálů a jejich rozdělení, poté rešerše metod 3D tisku vhodných pro polymerní materiály a nakonec jsou představeny základy mechanického chování polymerů. V praktické části jsou postupně prováděny kroky pro určení odhadu únavové životnosti uvažované metamateriálové struktury pomocí čtyř kritérií. Pomocí experimentálních testů jsou naměřeny mechanické vlastnosti uvažovaného materiálu, které jsou vloženy do vytvořeného numerického modelu. Okrajové podmínky a zatížení modelu jsou zvoleny tak, aby odpovídaly reálným podmínkám při zatěžování. Numerický model je využitý pro určení kritických lokací ve struktuře a pro predikci únavové životnosti. Ve dvou kritických místech jsou zaznamenávány hodnoty napětí a přetvoření představující jednotlivé fáze cyklického zatěžování. Tyto hodnoty jsou použity pro predikci únavové životnosti.
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3D print of nanocomposite photopolymer systems
Sevriugina, Veronika ; Lepcio, Petr (referee) ; Ondreáš, František (advisor)
This master’s thesis deals with the preparation of nanocomposite photopolymer systems for 3D printing. The composition and structure were studied by thermogravimetry (TGA) and scanning transmission electron microscopy (STEM). The kinetics of photoreaction with gradually increasing content of Fe3O4 and AZO particles in a commercial methacrylate resin was also characterized by the creation of Jakobs working curves, photorheology, and differential scanning photocalorimetry (photo-DSC). Subsequently, the effect of composition on the printability of materials was observed. Part of the work is also devoted to the characterization of the influence of particles on the thermomechanical properties of the resulting products using dynamic-mechanical analysis (DMA) and on the mechanical properties in pressure.
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Design of a rotary pendulum with a flexible joint
Palát, Ondřej ; Formánek, Martin (referee) ; Dobossy, Barnabás (advisor)
This Bachelor thesis is focused on design of laboratory equipment with flexible joint. It describes construction, control electronics design, microcontroller programming and mathematical modelling describing flexible joint dynamics. Model parameters were estimated based on measurements. First part also describes market survey and brief description of algorithms used for numeric parameter estimation.
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