Constitutive modelling of the 6061 aluminium alloy under hot rolling conditions and large strain ranges

Constitutive modelling of the 6061 aluminium alloy under hot rolling conditions and large strain ranges

Constitutive models were built based on the results of isothermal hot compression tests for a 6061 aluminium alloy at temperatures of 400, 450, 500, and 550 °C and strain rates of 0.1, 1, and 10 s−1, which reproduced conditions of the hot rolling forming process for this alloy. The Garofalo-Arrheniu...

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Main Authors: André Rudnytskyj, Peter Simon, Martin Jech, Carsten Gachot
Format: Article
Language:English
Published: Elsevier 2020-05-01
Series:Materials & Design
Online Access:http://www.sciencedirect.com/science/article/pii/S0264127520301015
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spelling doaj-5abe53c3ecd244d2a044603fbbe5415a2020-11-25T02:05:32ZengElsevierMaterials & Design0264-12752020-05-01190Constitutive modelling of the 6061 aluminium alloy under hot rolling conditions and large strain rangesAndré Rudnytskyj0Peter Simon1Martin Jech2Carsten Gachot3AC2T research GmbH, Hafenstraße 47-51 Top A4.2, Linz 4020, Austria; TU Wien, Institute of Engineering Design and Product Development, Getreidemarkt 9, Vienna 1060, Austria; Corresponding author at: AC2T research GmbH, Hafenstraße 47-51 Top A4.2, Linz 4020, Austria.AMAG Austria Metal AG, Lamprechtshausener Straße 61, Ranshofen 5282, AustriaAC2T research GmbH, Hafenstraße 47-51 Top A4.2, Linz 4020, AustriaTU Wien, Institute of Engineering Design and Product Development, Getreidemarkt 9, Vienna 1060, AustriaConstitutive models were built based on the results of isothermal hot compression tests for a 6061 aluminium alloy at temperatures of 400, 450, 500, and 550 °C and strain rates of 0.1, 1, and 10 s−1, which reproduced conditions of the hot rolling forming process for this alloy. The Garofalo-Arrhenius, Johnson-Cook, and Hensel-Spittel material models, modified versions of the latter two, as well as a newly proposed Johnson-Cook model were applied based on the experimental data. The predictive power of the constitutive models was assessed for a wide range of plastic strains, from the start of the plastic region up to a strain value of 1, including strain hardening at the beginning of the flow curve. Comparisons between experiments and models by means of the Pearson correlation coefficient and relative errors, considering different strain ranges, showed that the goodness of the models depends strongly on the considered strain range. Results revealed that the Garofalo-Arrhenius model provided the highest accuracy at any strain range, followed by the Hensel-Spittel models and the newly proposed Johnson-Cook model, which performed more accurately than its commonly employed modified version. Keywords: Constitutive model, Hot rolling, AA6061, Flow stress, Strain hardeninghttp://www.sciencedirect.com/science/article/pii/S0264127520301015
collection DOAJ
language English
format Article
sources DOAJ
author André Rudnytskyj
Peter Simon
Martin Jech
Carsten Gachot
spellingShingle André Rudnytskyj
Peter Simon
Martin Jech
Carsten Gachot
Constitutive modelling of the 6061 aluminium alloy under hot rolling conditions and large strain ranges
Materials & Design
author_facet André Rudnytskyj
Peter Simon
Martin Jech
Carsten Gachot
author_sort André Rudnytskyj
title Constitutive modelling of the 6061 aluminium alloy under hot rolling conditions and large strain ranges
title_short Constitutive modelling of the 6061 aluminium alloy under hot rolling conditions and large strain ranges
title_full Constitutive modelling of the 6061 aluminium alloy under hot rolling conditions and large strain ranges
title_fullStr Constitutive modelling of the 6061 aluminium alloy under hot rolling conditions and large strain ranges
title_full_unstemmed Constitutive modelling of the 6061 aluminium alloy under hot rolling conditions and large strain ranges
title_sort constitutive modelling of the 6061 aluminium alloy under hot rolling conditions and large strain ranges
publisher Elsevier
series Materials & Design
issn 0264-1275
publishDate 2020-05-01
description Constitutive models were built based on the results of isothermal hot compression tests for a 6061 aluminium alloy at temperatures of 400, 450, 500, and 550 °C and strain rates of 0.1, 1, and 10 s−1, which reproduced conditions of the hot rolling forming process for this alloy. The Garofalo-Arrhenius, Johnson-Cook, and Hensel-Spittel material models, modified versions of the latter two, as well as a newly proposed Johnson-Cook model were applied based on the experimental data. The predictive power of the constitutive models was assessed for a wide range of plastic strains, from the start of the plastic region up to a strain value of 1, including strain hardening at the beginning of the flow curve. Comparisons between experiments and models by means of the Pearson correlation coefficient and relative errors, considering different strain ranges, showed that the goodness of the models depends strongly on the considered strain range. Results revealed that the Garofalo-Arrhenius model provided the highest accuracy at any strain range, followed by the Hensel-Spittel models and the newly proposed Johnson-Cook model, which performed more accurately than its commonly employed modified version. Keywords: Constitutive model, Hot rolling, AA6061, Flow stress, Strain hardening
url http://www.sciencedirect.com/science/article/pii/S0264127520301015
work_keys_str_mv AT andrerudnytskyj constitutivemodellingofthe6061aluminiumalloyunderhotrollingconditionsandlargestrainranges
AT petersimon constitutivemodellingofthe6061aluminiumalloyunderhotrollingconditionsandlargestrainranges
AT martinjech constitutivemodellingofthe6061aluminiumalloyunderhotrollingconditionsandlargestrainranges
AT carstengachot constitutivemodellingofthe6061aluminiumalloyunderhotrollingconditionsandlargestrainranges
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