Analýza využití 3D tisku pro výrobu tlakových nádob
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Bakalářská práce se zabývá návrhem expanzní nádoby chladicího systému motoru studentské formule. Pro zhotovení prototypu expanzní nádoby bylo využito několik technologií 3D tisku (FDM, SLA, SLS). Práce obsahuje popis jednotlivých technologií 3D tisku a jejich materiálové možnosti s akcentem na potřebné mechanické a teplotní vlastnosti. V práci je popsáno navrhnuté konstrukční řešení nádoby, kde je řešeno, jak tepelné, tak tlakové zatížení nádoby při jejím provozu. V praktické části bakalářské práce je zhodnocena výroba několika prototypů nádoby, které byly následně testovány. Závěr práce obsahuje doporučení optimálního řešení, pro vybavení vozu studentské formule v sezóně 2017/2018.
The bachelor thesis deals with a design of expansion vessel which is a part of Formula Student car's cooling system. For completing the prototype of expansion vessel, some of the 3D print technologies (FDM, SLA, SLS) were used. The thesis contains a description of each 3D print technology and its material options with the emphases on mechanical and thermal properties. Also, there is a description of a newly designed vessel, in which both thermal and mechanical load while working are discussed. In the practical part of the bachelor thesis there is an evaluation of manufacturing several prototypes of the vessel which were then tested. In the conclusion of the work, there is an optimal solution of a vessel implementation into the car for the season 2017/2018 recommended.
The bachelor thesis deals with a design of expansion vessel which is a part of Formula Student car's cooling system. For completing the prototype of expansion vessel, some of the 3D print technologies (FDM, SLA, SLS) were used. The thesis contains a description of each 3D print technology and its material options with the emphases on mechanical and thermal properties. Also, there is a description of a newly designed vessel, in which both thermal and mechanical load while working are discussed. In the practical part of the bachelor thesis there is an evaluation of manufacturing several prototypes of the vessel which were then tested. In the conclusion of the work, there is an optimal solution of a vessel implementation into the car for the season 2017/2018 recommended.
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3D tisk, expanzní nádoba, FDM, SLA, SLS, Rapid Prototyping, 3D print, expansion vessel, FMD, SLA, SLS, Rapid Prototyping