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Konstrukcija orodne komponente s konformnim hlajenjem : magistrsko delo
ID Tršar, Domen (Author), ID Mrvar, Primož (Mentor) More about this mentor... This link opens in a new window

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Abstract
Selektivno lasersko taljenje (SLM) je nova tehnologija, ki se uveljavlja v svetu orodjarstva. Omogoča nam izdelavo kompleksnih geometrij, ki jih prej ni bilo mogoče doseči z običajnimi metodami proizvodnje. To še posebej pride do izraza pri izdelavi orodnih komponent s konformnim hladilno-grelnim sistemom za optimizacijo procesa tlačnega litja. V magistrskem delu je opisan proces konstrukcije ter sama problematika, s katero se soočamo med konstrukcijo dotičnih komponent s konformnim hlajenjem, da dosežemo optimalno hlajenje. Cilj magistrskega dela je bil optimizirati proces litja z implementacijo konformnega hladilno-grelnega sistema v jedro stranskega drsnika. Tega smo primerjali z jedrom, ki je vseboval kanale, izdelane po tradicionalnih metodah vrtanja in čepljenja. Pomagali smo si s pripravo numeričnih simulacij, kjer smo izračunali livarske procese z metodo FDM (metoda končnih diferenc). Bolj natančno, računali smo temperaturna in napetostna polja, primerjali smo pretoke, nagnjenost k lepljenju zlitine na orodje in ocenili življenjsko dobo komponente. Podrobno smo se seznanili s procesom 3D tiska po metodi SLM (selektivno lasersko taljenje), kjer smo na substrat iz jekla H13 tiskali maraging jeklo MS1. Nato je sledila izdelava in toplotna obdelava preizkusnih epruvet za analizo spoja dveh lasersko navarjenih materialov. To je vključevalo ultrazvočno analizo spoja, preizkus natezne trdnosti, žilavosti, trdote ter analizo mikrostrukture. Namen tega je bil dokazati smiselnost uporabe hibridnega načina tiska za zniževanje stroškov proizvodnje.

Language:Slovenian
Keywords:tlačno litje, SLM, hibridni tisk, orodne komponente, metoda končnih razlik, konformno hlajenje
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:NTF - Faculty of Natural Sciences and Engineering
Place of publishing:Ljubljana
Publisher:D. Tršar
Year:2023
Number of pages:XIX, 99 f.
PID:20.500.12556/RUL-152033 This link opens in a new window
UDC:669
COBISS.SI-ID:173358851 This link opens in a new window
Publication date in RUL:28.10.2023
Views:479
Downloads:74
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Secondary language

Language:English
Title:Development of die casting component with conformal cooling : master's thesis
Abstract:
Selective laser melting (SLM) is a new technology gaining popularity in the toolmaking world. It allows us to produce complex geometries that previously could not be achieved with conventional manufacturing methods. This is particularly evident in the production of tool components with a conformal cooling-heating system to optimize the pressure die casting process. The thesis describes the construction process and the challenges faced during the manufacturing of these components with conformal cooling to achieve optimal cooling. The aim was to optimize the casting process by implementing a conformal cooling-heating system in the core of the side insert. This was compared to a core that contained channels made using traditional drilling and plugging methods. Numerical simulations were used to calculate the casting processes using the FDM method (finite difference method). Specifically, we calculated temperature fields, stress fields, compared flow rates, and analysed the likelihood of soldering. We thoroughly familiarized ourselves with the SLM (Selective Laser Melting) 3D printing process, where we printed maraging steel MS1 onto a substrate made of H13 tool steel. Subsequently, we manufactured and thermally treated test specimens to verify the joining of the two laser-welded materials. This involved ultrasonic analysis of the joint, tensile strength testing, toughness testing, hardness testing, and microstructure analysis. The purpose was to demonstrate the viability of using a hybrid printing method to reduce production costs.

Keywords:pressure die casting, SLM, hybrid printing, tooling components, finite difference method, conformal cooling

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