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Application of Modern Technology for Manufacturing of Prototype Model of Fixation Handle of Keyboard Stand
Rozum, Jakub ; Jaroš, Aleš (referee) ; Sedlák, Josef (advisor)
This thesis is focused on manufacturing of prototype model of fixation handle of keyboard stand using modern vacuum casting technology. The first chapter is focused on product analysis. The following parts of the thesis consist of research dealing with issues of vacuum casting and materials used for this technology, especially casting resins. Part of the thesis is manufacturing of a silicone mold based on already existing component, which is used for the casting of the new component. The silicone mold is made of a silicone mixture Silastic T – 4, for the casting of the new component is selected casting material SG 2000 / Komp. A + B. For vacuum process is used vacuum chamber MK Mini. Bachelor thesis is completed by technical and economic evaluation.
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Design of technology for a mould manufacturing for casting in short run production
Pivoda, Miroslav ; Dvořáček, Jan (referee) ; Sedlák, Josef (advisor)
The aim of thesis is to describe the basic methods called Rapid Prototyping in theory and using one of them to create master model. Master model will be used to create silicone mould where a limited series of wax models will be by means of vacuum casting chamber. They will also be used to make ceramic form in which the final pad will be cast from freely accessible materials. After processing it the suitability of the proposed technologies for the production of the part in question will be assessed.
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Application of Rapid prototyping for production of historical models of assault force vehicles
Malý, Ondřej ; Sedlák, Josef (referee) ; Dvořáček, Jan (advisor)
The paper deals with the production and subsequent evaluation of produced historical trolleys Steyr K2670 models at a scale of 1:120. For manufacturing of the product was used rapid prototyping technology, which creates objects based on the virtual designs. In order to compare, the prototype model was built on different machines, using different methods of making bodies. Based on the final product was produced 3D printing silicone mould, into which was casted the modeller resin in the vacuum chamber. The conclusion is that for objects with very fine detail, it is suitable to choose a machine with high accuracy, working with thin layers of material. The prototype needs to be shaped before creating mould because silicone mould transmits most of the details, such as the texture of the surface layer structure.
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Application of Modern Technologies to Production of Prototype Form
Pospíšil, Josef ; Zemčík, Oskar (referee) ; Sedlák, Josef (advisor)
This Diploma Thesis deals with modern technologies such as 3D scanning, rapid prototyping and vacuum casting to production of prototype form. It considers advantages and disadvantages of the modern technologies compared to traditional process of manufacturing prototype form and economical contribution using the modern technologies. Part of the thesis considers a choice of suitable manufacturing technology of a particular product.
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Application of Modern Technology for Manufacturing of Prototype Model of Fixation Handle of Keyboard Stand
Rozum, Jakub ; Jaroš, Aleš (referee) ; Sedlák, Josef (advisor)
This thesis is focused on manufacturing of prototype model of fixation handle of keyboard stand using modern vacuum casting technology. The first chapter is focused on product analysis. The following parts of the thesis consist of research dealing with issues of vacuum casting and materials used for this technology, especially casting resins. Part of the thesis is manufacturing of a silicone mold based on already existing component, which is used for the casting of the new component. The silicone mold is made of a silicone mixture Silastic T – 4, for the casting of the new component is selected casting material SG 2000 / Komp. A + B. For vacuum process is used vacuum chamber MK Mini. Bachelor thesis is completed by technical and economic evaluation.
|
|
|
Application of Modern Technologies to Production of Prototype Form
Pospíšil, Josef ; Zemčík, Oskar (referee) ; Sedlák, Josef (advisor)
This Diploma Thesis deals with modern technologies such as 3D scanning, rapid prototyping and vacuum casting to production of prototype form. It considers advantages and disadvantages of the modern technologies compared to traditional process of manufacturing prototype form and economical contribution using the modern technologies. Part of the thesis considers a choice of suitable manufacturing technology of a particular product.
|
|
|
Design of technology for a mould manufacturing for casting in short run production
Pivoda, Miroslav ; Dvořáček, Jan (referee) ; Sedlák, Josef (advisor)
The aim of thesis is to describe the basic methods called Rapid Prototyping in theory and using one of them to create master model. Master model will be used to create silicone mould where a limited series of wax models will be by means of vacuum casting chamber. They will also be used to make ceramic form in which the final pad will be cast from freely accessible materials. After processing it the suitability of the proposed technologies for the production of the part in question will be assessed.
|
|
|
Application of Rapid prototyping for production of historical models of assault force vehicles
Malý, Ondřej ; Sedlák, Josef (referee) ; Dvořáček, Jan (advisor)
The paper deals with the production and subsequent evaluation of produced historical trolleys Steyr K2670 models at a scale of 1:120. For manufacturing of the product was used rapid prototyping technology, which creates objects based on the virtual designs. In order to compare, the prototype model was built on different machines, using different methods of making bodies. Based on the final product was produced 3D printing silicone mould, into which was casted the modeller resin in the vacuum chamber. The conclusion is that for objects with very fine detail, it is suitable to choose a machine with high accuracy, working with thin layers of material. The prototype needs to be shaped before creating mould because silicone mould transmits most of the details, such as the texture of the surface layer structure.
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