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Welding of deep-drawing steels with protective layer by laser-TIG hybrid technology
Brehovský, Patrik ; Sigmund, Marian (oponent) ; Mrňa, Libor (vedoucí práce)
The diploma thesis focuses on laser welding of extra deep-drawn steel sheet according to the standard WSS-M1A365-A14 with a protective zinc surface layer. A 0,9 mm thick steel sheet with a zinc layer with coating weight 50 g · m^-2 is welded by a hybrid welding method Laser-TIG. The laser, as the primary energy source, is used for welding the material. The arc, provided by a non-melting tungsten electrode, is used for preheating the material for melting and evaporation of the zinc layer. Based on the initial experiments, the magnitude of the laser power with the welding speed was chosen as a constant parameter. The magnitude of the electric current, as the variable parameter, was set up to 0, 20, 30 and 40 ampers for welding the lap and the butt welds. Only one piece of the each weld type combination was made. The welds were afterwards tested to verify their quality and material properties. The first differences between laser welding with or without TIG preheating were visible during the experiment. The positive effects of the laser welding with preheating by TIG were confirmed. The material properties of the joints achieved better values and a influence of the welding defects on the quality of the joints was reduced. The Laser-TIG is a good choice for welding galvanized steel sheets in the mass production of automotive industry and it could be improved by more researches.
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Smart materiály pro aktuátory
Brehovský, Patrik ; Hadaš, Zdeněk (oponent) ; Huzlík, Rostislav (vedoucí práce)
Bakalárska práca „Smart materiály pro aktuátory“ za zaoberá vhodným využitím materiálov, označovaných ako inteligentné pre ich vlastnosti, v oblasti aktuátorov. Z počiatku sa práca zaoberá hlavnými požiadavkami na aktuátory, ktoré je nutné určiť pri výbere vhodného aktuátora pre vznikajúci projekt. Následne je spracovaná literárna rešerše pre typy smart materiálov vhodných pre použitie u aktuátorov. V druhej časti sú vybrané niektoré materiály a je spravený ich podrobnejší popis. Koniec práce tvorí vyhodnotenie jednotlivých materiálov ako vhodných pre vopred určené aplikácie a vymenovanie dôvodov pre zvolenie materiálu.
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Welding of deep-drawing steels with protective layer by laser-TIG hybrid technology
Brehovský, Patrik ; Sigmund, Marian (oponent) ; Mrňa, Libor (vedoucí práce)
The diploma thesis focuses on laser welding of extra deep-drawn steel sheet according to the standard WSS-M1A365-A14 with a protective zinc surface layer. A 0,9 mm thick steel sheet with a zinc layer with coating weight 50 g · m^-2 is welded by a hybrid welding method Laser-TIG. The laser, as the primary energy source, is used for welding the material. The arc, provided by a non-melting tungsten electrode, is used for preheating the material for melting and evaporation of the zinc layer. Based on the initial experiments, the magnitude of the laser power with the welding speed was chosen as a constant parameter. The magnitude of the electric current, as the variable parameter, was set up to 0, 20, 30 and 40 ampers for welding the lap and the butt welds. Only one piece of the each weld type combination was made. The welds were afterwards tested to verify their quality and material properties. The first differences between laser welding with or without TIG preheating were visible during the experiment. The positive effects of the laser welding with preheating by TIG were confirmed. The material properties of the joints achieved better values and a influence of the welding defects on the quality of the joints was reduced. The Laser-TIG is a good choice for welding galvanized steel sheets in the mass production of automotive industry and it could be improved by more researches.
|
|
|
Smart materiály pro aktuátory
Brehovský, Patrik ; Hadaš, Zdeněk (oponent) ; Huzlík, Rostislav (vedoucí práce)
Bakalárska práca „Smart materiály pro aktuátory“ za zaoberá vhodným využitím materiálov, označovaných ako inteligentné pre ich vlastnosti, v oblasti aktuátorov. Z počiatku sa práca zaoberá hlavnými požiadavkami na aktuátory, ktoré je nutné určiť pri výbere vhodného aktuátora pre vznikajúci projekt. Následne je spracovaná literárna rešerše pre typy smart materiálov vhodných pre použitie u aktuátorov. V druhej časti sú vybrané niektoré materiály a je spravený ich podrobnejší popis. Koniec práce tvorí vyhodnotenie jednotlivých materiálov ako vhodných pre vopred určené aplikácie a vymenovanie dôvodov pre zvolenie materiálu.
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