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Simulacija toplotne obdelave v sklopu iztiskavanja aluminijeve zlitine v vročem : magistrsko delo
ID Arzenšek, Matija (Author), ID Bombač, David (Mentor) More about this mentor... This link opens in a new window, ID Cvahte, Peter (Comentor)

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Abstract
Magistrsko delo obsega analizo simulacijskih rezultatov predgretja surovcev, gašenja in ohlajanja surovcev pred iztiskavanjem. Omenjeni postopki so neposredno povezani s preoblikovalnim postopkom iztiskavanja aluminijevih zlitin. S postopkom iztiskavanja v vročem se v splošnem izdelujejo palice, cevi in profili. Predhodna priprava, ter njena simulacija, kar predstavlja toplotno obdelavo predgretja, gašenja in ohlajanja surovcev oziroma okroglic pred iztiskavanjem omogoča ogrevanje materiala na temperaturo iztiskavanja, prisilnega raztapljanja zlitinskih elementov iz intermetalnih faz v osnovi mikrostrukture, ter vpliva realnega stanja odvoda toplote iz ogrevanega materiala pred iztiskavanjem. Toplotna obdelava po iztiskavanju obsega gašenje iztisnjenih palic oziroma profilov, kar predstavlja začetno stanje za nadaljnjo naravno ali umetno staranje, t.j. proces izločevalnega utrjevanja. Toplotna obdelava pred in po iztiskavanju v veliki meri vpliva na lastnosti materiala, mikrostrukturno in mehansko, kot posledično tudi na lastnosti same palice oziroma profila. V ta namen se v magistrskem delu obravnava simulacija predgretja, gašenja in ohlajanja surovcev pred iztiskavanjem. S simulacijo toplotne obdelave po metodi končnih elementov je omogočen vpogled v temperaturno polje po surovcu pred iztiskavanjem. Natančnost modela in rezultatov simulacij je podkrepljena z meritvami dejanskih vrednosti temperature na stiskalnici. Na podlagi realnih rezultatov se simulacijski model popravi z adjustažo parametrov in kalibracijo simulacijskih modelov, do dosega dejanskih vrednosti.

Language:Slovenian
Keywords:simulacija, metoda končnih elementov, aluminijeve zlitine, toplotna obdelava, analiza občutljivosti
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:M. Arzenšek
Year:2023
Number of pages:XX, 89 f.
PID:20.500.12556/RUL-146870 This link opens in a new window
UDC:669
COBISS.SI-ID:159981059 This link opens in a new window
Publication date in RUL:15.06.2023
Views:945
Downloads:243
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Secondary language

Language:English
Title:Heat treatment simulation of aluminium alloy hot extrusion process : master's thesis
Abstract:
Presented master's thesis focuses on analysis of simulation results of aluminium alloy extrusion billet preheating and spray cooling simulations. Mentioned processes are directly connected to the bulk metal forming processing named hot extrusion. The main products of hot aluminium alloy extrusion are rods, tubes and profiles. Pre-processing and the simulation of pre-processing, which is considered as a pre-extrusion heat treatment of preheating, spray cooling and general cooling, provides the ability to heat the material to extrusion temperature, dissolve of intermetallic phases and the effect of heat transfer to and from the preheated material before the extrusion process takes place. Post-extrusion heat treatment includes water quenching of extruded material, which sets basis for further natural or artificial ageing. Both mentioned contribute to mechanical properties due to precipitation hardening effect. Heat treatment pre- and post-extrusion processing greatly affects the properties of the material, both microstructural and mechanical properties, subsequently also the properties of extruded product. The master's thesis's focuses on simulations of preheating, spray cooling and cooling of the billet material pre-extrusion. Pre-extrusion heat treatment finite element method simulations provide broader information of the temperature field on the surface and inside the billet. The model accuracy is be supported with result of temperature measurements, performed before the extrusion. Calibration of models is carried out with the adjustment of the main process parameters in order to achieve realistic response of the simulation models.

Keywords:simulation, finite element method, aluminium alloys, heat treatment, sensitivity analysis

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