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Določitev parametrov triaksialnosti aluminijeve zlitine za gnetenje
ID Gerdin, Peter (Author), ID Pepelnjak, Tomaž (Mentor) More about this mentor... This link opens in a new window

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PID: 20.500.12556/rul/57711ee0-d764-49c2-ba3c-6289553e00e3

Abstract
Postopki preoblikovanja predstavljajo pomemben segment industrijske proizvodnje. Največkrat preoblikovalni procesi potekajo pri pogojih večosnega napetostnega stanja. Zaradi večosnega napetostnega stanja je pomembno poznavanje napetostne triaksialnosti, ki pogojuje pojav duktilnega loma. Dandanes se pri načrtovanju preoblikovanja izdelkov pogosto uporablja analiza v digitalnem okolju. V ta namen je potrebno poznati materialne parametre, s katerimi so povezani modeli duktilnega loma v računalniških programih. Eden izmed najpogosteje uporabljenih modelov, ki zajema parametre triaksialnosti in je implementiran v programu Abaqus, je Johnson-Cook-ov model. Za določitev parametrov triaksialnosti smo izvedli natezni preizkus paličastega aluminija AW 6082, pri katerem smo s pomočjo digitalne kamere opazovali spremembo geometrije. Iz zajetih slik smo izračunali napetostno triaksialnost. Na podlagi napetostne triaksialnosti in porušitvene deformacije smo določili Johnson-Cook-ove parametre triaksialnosti. V programu Abaqus smo na osnovi teh parametrov izvedli analizo natezne obremenitve preizkušanca z utorom in primerjali dobljene rezultate z vrednostmi iz eksperimenta.

Language:Slovenian
Keywords:preoblikovanje kovin, napetostna triaksialnost, aluminij AW 6082, Johnson-Cook-ov model, parametri triaksialnosti, simulacija
Work type:Master's thesis/paper
Organization:FS - Faculty of Mechanical Engineering
Year:2017
PID:20.500.12556/RUL-92956 This link opens in a new window
Publication date in RUL:11.07.2017
Views:1632
Downloads:453
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Secondary language

Language:English
Title:Determination of parameters of stress triaxiality for aluminium wrought alloy
Abstract:
Metal forming processes play an important part in industrial manufacturing. In most cases metal forming processes are done under the conditions of multiaxial stress state. Due to this multiaxial stress state, it is important to have knowledge of stress triaxiality which is important for ductile fracture. Nowadays, analysis in digital environment is often used for planning a forming processes. Because of this, it is vital to know material parameters which are interfaced with ductile fracture in computer programs. One of the most frequently used models, which covers parameters of stress triaxiality and is implemented in Abaqus, is Johnson-Cook model. To determine stress triaxiality parameters we performed a tensile test of aluminium AW 6082 specimen. We used a digital camera to observe changes in geometry during tensile test. From the captured images we were able to calculate stress triaxiality. Based on stress triaxiality and strain at fracture we were able to determine Johnson-Cook triaxiality parameters. And these parameters allowed us to perform the simulation of the tensile test of a notched specimen and compare the results obtained with the values from the experiment.

Keywords:metal forming, stress triaxiality, aluminium AW 6082, Johnson-Cook model, stress triaxiality parameters, simulation

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