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Title:Preračun nosilca orodja za izdelavo komponent iz poliuretanske pene : diplomsko delo
Authors:Rotovnik, Luka (Author)
Vesenjak, Matej (Mentor) More about this mentor... New window
Files:.pdf UN_Rotovnik_Luka_2018.pdf (1,41 MB)
Work type:Bachelor thesis/paper (mb11)
Typology:2.11 - Undergraduate Thesis
Organization:FS - Faculty of Mechanical Engineering
Abstract:Namen te diplomske naloge je preveriti ustreznost nosilca orodja za izdelavo avtomobilskih komponent iz poliuretanske pene. V diplomski nalogi smo s programom Abaqus izvedli trdnostni preračun nosilca orodja in ugotovili največje pomike ter največje napetosti v nosilcu. Preračunali smo tudi ustreznost pnevmatskih delov nosilca ter preračunali ustreznost najbolj obremenjenega sornika na nosilcu. Preverili smo tudi hitrosti najbolj pomembnih pnevmatskih delov na nosilcu. Ugotovili smo, da so sestavni deli, ki smo jih preračunali ustrezni, kar pomeni, da je nosilec primerno dimenzioniran.
Keywords:nosilec, Abaqus, metoda končnih elementov, preračun nosilca, kinematika, strojni elementi, dimenzioniranje, numerično modeliranja
Year of publishing:2018
Place of performance:Maribor
Publisher:[L. Rotovnik]
Number of pages:VII, 27 str.
COBISS_ID:22279702 Link is opened in a new window
License:CC BY-NC-ND 4.0
This work is available under this license: Creative Commons Attribution Non-Commercial No Derivatives 4.0 International
Categories:KTFMB - FS
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Secondary language

Title:Analysis of the tool holder for production of polyurethane foam components
Abstract:The purpose of this diploma is to check the strength of the tool holder for production of automotive polyurethane foam components. In this diploma, the strength analysis was performed using the computer code Abaqus to determine the maximum displacements and stresses. Pneumatic components of the holder are also analysed, as well as the adequacy of the pin with highest load. The velocity of the most relevant pneumatic parts is also calculated. We have determined that all the analysed components are suitable and that the tool holder is properly dimensioned.
Keywords:tool holder, Abaqus, finite element method, strength analysis, kinematics


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