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Production of Preparation Prototype Using Additive Method of Fused Deposition Modelling
Sedláček, Milan ; Kouřil, Karel (referee) ; Sedlák, Josef (advisor)
This thesis focuses on the production of a product using the increasingly popular additive technologies Rapid Prototyping. The theoretical section explained the very rapid prototyping technology and its application in various sectors. There were also mentioned different materials to use for 3D printing and actual printing method. The practical part was focused on the prototype modeling in SolidWorks CAD software and the subsequent production of elements of the 3D printer uPrint, using additive method Fused Deposition Modeling. In the conclusion, there is the evaluation of prototype production and also cost comparison using alternative materials.
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Rapid Prototyping Technology in Automotive Industry
Skrutek, Ivo ; Svída, David (referee) ; Ramík, Pavel (advisor)
This bachelor´s thesis offer basic overview about today´s Rapid Prototyping technologies, their principles and possibilities of usage in automotive industry. It is aimed on the description of each method, explanation of function, depicting advantages and disadvantages For each individual case there are some real examples of usage RP technology in automotive industry. One part shows practical process of producing part by FDM. At the end is mentioned a possible development of this technology in future and her widening in automotive industry.
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Construction and production of the floorball stick blade using Fused Deposition Modeling
Jelínek, Vít ; Dvořáček, Jan (referee) ; Sedlák, Josef (advisor)
This work combines 3D printing technology (Rapid Prototyping) with the sports industry. Using mentioned modern technology was made functional model blade floorball stick, which originated in the engineering design 3D parametric software Autodesk Inventor. Work will explain the history of floorball and individual methods increasingly popular and more affordable 3D printing, through which could be modeled blade floorball stick. Conclusion contains techno-economic evaluation, where will be disclosed the pros and cons of the use of Rapid Prototyping technology in this sports industry.
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Real-Time Image Processing Algorithm Implementation
Rypák, Andrej ; Zemčík, Pavel (referee) ; Černocký, Jan (advisor)
This Bachelor's Thesis was performed during a study stay at the École Supérieure d'Ingénieurs en Électronique et Électrotechnique Paris, France. In this project, I deal with designing program components for a rapid prototyping software called SynDEx that is used for automatic code generation, real-time application development and optimization for multicomponent mixed architectures. I briefly introduce this software. I present techniques I used to implement two different specific image processing chains and a displaying component. The chains perform image segmentation and labelling.In this project I deal with designing program components for a rapid prototyping software called SynDEx that is used for automatic code generation, real-time application development and optimization for multicomponent mixed architectures. I briefly introduce this software. I present techniques I used to implement two different specific image processing chains and a displaying component. The chains perform image segmentation and labelling.
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The new concept of maintenance and operation of manufacturing technologies
Klus, Jakub ; Marek, Tomáš (referee) ; Marek, Jiří (advisor)
This diploma thesis deals with a new concept of maintenance and operation of production technologies, where spare parts are manufactured using rapid prototyping methods. The options are compared with currently used methods. Furthermore, methodological recommendations are written on how to proceed with the application. The aim of the work is to evaluate the concept and confirm the theoretical assumptions on a case study.
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Production of interior car handle prototype on 3D FDM printer
Kaššák, Marek ; Dvořák, Jaromír (referee) ; Zemčík, Oskar (advisor)
This bachelor this processes the issue of manufacturing of a prototype of handle for the car interior using method fused deposition modeling method. First part of this is dedicated to a brief overwiev of prototype manufacturing using rapid prototyping technology , with FDM 3D printing and materials used by FDM method. Second part is dedicated to design of 3D model using AutoDesk Inventor 2014 software, prototype manufacturing itself, evaluating of construction technologicality and technological-economic evaluation of manufacturing costs.
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