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Electric Longboard Powertrain Design
Pliešovský, Libor ; Tobiáš, Martin (referee) ; Fojtášek, Jan (advisor)
This diploma thesis deals with the design of electric longboard drivetrain for commuting. The first part deals with the recherche of electric longboards and drivetrain concept selection. The second part contains the design of the whole assembly with focus on the drivetrain. The last part is devoted to the longitudinal driving dynamics.
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Carbon Fiber Formula Student Driveshaft
Bartoška, Vojtěch ; Prokop, Aleš (referee) ; Janoušek, Michal (advisor)
The work contains summary of possible design solutions of the drive shafts for Formula Student vehicle. Choice of the composite shaft design and its design, including proposal of tripod and bonded joint. Design verification by static and dynamic testing. Comparison of composite drive shafts with steel drive shafts.
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Drivetrain of a 8x8 truck
Hebnar, Tomáš ; Kučera, Pavel (referee) ; Píštěk, Václav (advisor)
This thesis is focused on building a replacement torsion system of drivetrain of 8x8 and 8x4 trucks and subsequent computational analyses of built systems. There were made two analyses. The first one is a computational analysis of the shapes of vibration and The second one is a sensitivity analysis. The sensitivity analysis is studying effect on the size of the natural frequencies under the effect of gear ratio.
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Formula Student Drivetrain
Odehnal, Jakub ; Svída, David (referee) ; Ramík, Pavel (advisor)
This master‘s thesis describes design of Formula Student Drivetrain, car evolution Dragon 4 and Dragon 5. There is shown an overview of the drivetrain parts used in category Formula Student. On that basis is made the new concept of drivetrain for the each car. Major focus is placed on the design of the differential mounting and chain tensioning mechanism. For the selected components was made stress analysis by FEM.
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Transmission of Air Turbines
Pauliny, Matúš ; Prokop, Aleš (referee) ; Janoušek, Michal (advisor)
Cílem této bakalářské práce je rešerše konstrukcí převodových ústrojí používaných ve větrných elektrárnách. To zahrnuje: popis požadavků kladených na převodová ústrojí větrných elektráren, sestavení přehledu používaných konstrukčních uspořádání, a zhodnocení jejich použití z hlediska účinnosti a životnosti.
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Drivetrain of Formula Dragon 3
Matajsz, Petr ; Janoušek, Michal (referee) ; Svída, David (advisor)
This master thesis deals with the structural design of the drivetrain for the formula Dragon 3. There is shown an overview of the most common design solutions used in the category Formula Student. On that basis is made my own concept of the drivetrain. Major focus is placed on the design of the final drive, differential mounting including chain tensioning mechanism and design of related components. For the designed components was made stress analysis by FEM.
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Formula Student Differential Holders
Matoušek, Patrik ; Šebela, Kamil (referee) ; Janoušek, Michal (advisor)
This thesis deals with the used design solutions for differential mounting in Formula Student monoposts and with the selection of the optimal construction for the Dragon X monopost from the TU Brno Racing workshop. The thesis also deals with the analysis and suitability of the proposed structural unit in comparison with last year's solution and its separate strength, weight and functional analysis.
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Formula Student Drivetrain Components Design
Kolečář, Tomáš ; Píštěk, Václav (referee) ; Ramík, Pavel (advisor)
This batchelor´s thesis deals with description of formula student drivetrain components. Knowledge acquired in the theoretical part is applied in construction part of thesis. With structural design relates determination of drivetrain loading, stress analysis of driveshafts, stub axles and sprocket´s flange. All components were designed by using finite element method in software Ansys Workbench.
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Study of vehicle torque vectoring
Hlaváč, Pavel ; Fojtášek, Jan (referee) ; Míša, Jiří (advisor)
This bachelor thesis deals with torque vectoring. This topic has become interesting in recent years, as there is a rapid development of electromobility. Torque vectoring system can be integrated into electric vehicles with ease because there can be two motors on one axle. In this thesis, various types of drives and drivetrains are described, differentials are also covered in detail. Vehicle dynamics is also described. After the vehicle dynamics, the very benefit of torque vectoring is discussed. Finally, sensors and programs that could be used to design and simulate the system are briefly mentioned.
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Driveline Design and Testing Methods
Poláček, Jan ; Straka, Tomáš (referee) ; Fojtášek, Jan (advisor)
This bachelor’s thesis deals with the methods of designing and testing of vehicle drivetrains. The first part of the thesis describes and explains the individual drivetrain components and their possible arrangements. Then, the test methods used in the development of vehicle drivetrains, which are increasingly demanded in terms of their efficiency and reliability, are explained. Therefore, this thesis summarizes the sophisticated simulation tools used in the design and development of vehicle drivetrains. In conclusion of thesis the importance of simulation and testing of drivetrain is considered.
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