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Use of liquid in a sheet metal forming
Rejnuš, Vojtěch ; Řiháček, Jan (referee) ; Podaný, Kamil (advisor)
The liquid is used as the main or supporting forming medium. It is also used in series production of komplex and precision parts. It ranks among the more progressive methods and can be used among other aplications used for hydromechanical drawing, Pillow forming, Hydroform, Wheelon, ASEA, Flexform, new method Triform, explosion and electrohydraulic forming. Principles are presented for selected methods, as well as advantages, disadvantages and examples of practical applications.
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High energy rate forming
Nečas, Petr ; Šlais, Miroslav (referee) ; Peterková, Eva (advisor)
The thesis elaborated in frame of bachelor studies represents literary studies about current production methods applying high energy rate forming. The thesis also presents modern methods and manufacturing processes of methods, e.g. explosive forming, electrohydraulic forming and magneto-impulsive forming, with examples of manufactured components including image documentation and description of their advantages and disadvantages when used in practice.
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Use of liquid in a sheet metal forming
Rejnuš, Vojtěch ; Řiháček, Jan (referee) ; Podaný, Kamil (advisor)
The liquid is used as the main or supporting forming medium. It is also used in series production of komplex and precision parts. It ranks among the more progressive methods and can be used among other aplications used for hydromechanical drawing, Pillow forming, Hydroform, Wheelon, ASEA, Flexform, new method Triform, explosion and electrohydraulic forming. Principles are presented for selected methods, as well as advantages, disadvantages and examples of practical applications.
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High energy rate forming
Nečas, Petr ; Šlais, Miroslav (referee) ; Peterková, Eva (advisor)
The thesis elaborated in frame of bachelor studies represents literary studies about current production methods applying high energy rate forming. The thesis also presents modern methods and manufacturing processes of methods, e.g. explosive forming, electrohydraulic forming and magneto-impulsive forming, with examples of manufactured components including image documentation and description of their advantages and disadvantages when used in practice.
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