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Universal control unit of technological processes
Gogola, Marek ; Vlach, Radek (referee) ; Krejčí, Petr (advisor)
This diploma thesis is about design and realization of universal control unit of technologic processes in food-processing industry. The main goal of this work is to create a device, which will be able with respect to desired values and using measured data autunomusly regulate output. In this work was done the realization of the control unit both from hardware and software aspect. Designed control unit is able to change the output power according to measured temperature. Furthermore is able to control of 2 relays. To set up the desired values and control of relays is used PC software.
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Chip conveyor
Horák, Miroslav ; Jonák, Martin (referee) ; Malášek, Jiří (advisor)
This bachelor thesis deals with the construction design of the conveyor selected on the basis of the research. The bachelor thesis describes the purpose of the chip conveyor and how it works. It is described here by which parameters the conveyor is selected, what are the types of these conveyors and the list of companies that specialize in their production. The next section describes the design of the conveyor for maximum versatility and a description of its design elements. Further, the strength calculation of the shaft and basic calculations of the other elements are made. The work is displayed in 3D visualization and is also accompanied by drawings of important detailed drawings.
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Optimization of fabrication technology and defect detection for ceramics structures
Chyťa, Filip ; Otáhal, Alexandr (referee) ; Skácel, Josef (advisor)
This work deals with the problems of defects in ceramics structures and packages, their detection and subsequent optimization of the manufacturing process in order to eliminate these defects. The first chapter summarizes ceramic materials in elec-trical engineering and deals specifically with Al2O3 and material GRANNALOX 9620 F and optimization of its production profile. The second chapter deals with preparation of the ceramic powder and its subsequent processing. The third chap-ter deals with detection of defects in the thus formed ceramic packages, testing their electrical, thermal and mechanical makings. In the next chapter I deal with my workflow, which I used in the production of packages, the way of production and testing of packages, including comparison of their makings.
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Cement-bonded particleboards with utilization of alternative raw materials
Urbánek, Libor ; Vacula, Miroslav (referee) ; Bydžovský, Jiří (advisor)
The diploma thesis is focused on effective utilization of currently produced alternative raw materials in the production of cement-bonded boards. The emphasis is primarily on the scraps and dust arising from the processing of cement-bonded slabs, as well as on slag and limestone. The theoretical part contains a survey of current knowledge about the given issue. In the experimental part, the alternative raw materials were analyzed in detail and their influence (as modifier components of the matrix and the filler) on the properties of cement-bonded slabs was examined. Research and development took place using physico-mechanical, thermal and microstructural methods.
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Analysis and programming of trochoid interpolations on a CNC machine
Jílková, Ingrid ; Ohnišťová, Petra (referee) ; Píška, Miroslav (advisor)
This diploma thesis deals with the analysis and programming of the trochoidal milling which is verified by interpolation in a CNC machine. The theoretical part of thesis deals with the research of the dynamic milling, in particular about the trochoidal milling. This part is focused on the mathematical description, creation of algorithms and the types of trajectories. It explains the cutting conditions as the cutting section of a chip, force loading and as well the quality prediction of the machined surfaces. Furthermore, it clarifies the advantages and the reasons of use of the trochoidal milling. The practical part of the thesis deals with the analysis and the experimental verification of the parametric programme for the selected application. At first, it is explained how were the trochoidal and the linear milling programmed. Next, it describes the programming of the trochoidal interpolations and their analysis with regard to the cutting section of a chip, force loading and the quality of the machined milled surfaces depending on the input parameter – the feed speed. This part presents the comparison of the trochoidal and the linear milling methods and their evaluations which are also done with regard to the cutting section of a chip, force loading and the quality of the machined surfaces. This part also suggests recommendations for practice depending on the results and it also contains the techno-economic assessment.
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Optimization of production steering shaft
Hlavinka, Martin ; Kalivoda, Milan (referee) ; Jaroš, Aleš (advisor)
Bachelor thesis deals with the creation of the optimal divided chip in the turning technology. The material for production of the steering shaft is steel C35RC suitable for forming and turning from which semi-finished products are produced at horizontally forming presses. They are machined at the production robotized line where the problem with the undivided chip arises. For the specified set of cutting conditions the uses the cutting tools which aren’t very suitable for the given types of technological operations. The recommended values of cutting conditions are different from the specified set of cutting conditions. The result will be choice of new-cutting tools for turning technological operations to shape short divided chip.
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