Finite-strain thermo-viscoplasticity for case-hardening steels over a wide temperature range

Philip Oppermann; Ralf Denzer; Andreas Menzel

doi:10.1002/pamm.201900237

Finite-strain thermo-viscoplasticity for case-hardening steels over a wide temperature range

Philip Oppermann, Ralf Denzer, Andreas Menzel

Hållfasthetslära

Technical University of Dortmund

Forskningsoutput: Kapitel i bok/rapport/Conference proceeding › Konferenspaper i proceeding › Peer review

Sammanfattning

The aim of this work is the development of a thermodynamically consistent fully coupled finite-strain thermo-viscoplastic material model for metals. The model is based on a split of the free energy into a thermo-elastic, a thermo-plastic and a purely thermal part and covers nonlinear cold-work hardening and thermal softening. Nonlinear temperature dependent effects are accounted for the elastic moduli, the plastic hardening moduli, the thermal expansion, the heat capacity and the heat conductivity. Furthermore, strain rate-dependency of the current yield stress is realized using a temperature dependent nonlinear Perzyna-type viscoplastic model based on an associative flow rule. The model and its parameters are fitted against experimental data for case hardening steel 16MnCr5 (1.7131).

Originalspråk	engelska
Titel på värdpublikation	Proceedings in Applied Mathematics & Mechanics
Förlag	Wiley-VCH Verlag
Sidor	e201900237
Antal sidor	2
Volym	19
DOI	https://doi.org/10.1002/pamm.201900237
Status	Published - 2019 nov. 18
Evenemang	GAMM Annual Meeting, 2019 - TU Wien, Vienna, Österrike Varaktighet: 2019 feb. 18 → 2019 feb. 22 Konferensnummer: 90 https://jahrestagung.gamm-ev.de/index.php/2019/2019-annual-meeting

Konferens

Konferens	GAMM Annual Meeting, 2019
Land/Territorium	Österrike
Ort	Vienna
Period	2019/02/18 → 2019/02/22
Internetadress	https://jahrestagung.gamm-ev.de/index.php/2019/2019-annual-meeting

Ämnesklassifikation (UKÄ)

Teknisk mekanik
Metallurgi och metalliska material

Tillgång till dokument

10.1002/pamm.201900237Licens: Annan

1 Konferensabstract

Finite-strain thermo-viscoplasticity for case-hardening steels over a wide temperature range
Oppermann, P., Denzer, R. & Menzel, A., 2019 feb. 21, s. 277-278. 2 s.
Forskningsoutput: Konferensbidrag › Konferensabstract › Peer review

Citera det här

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title = "Finite-strain thermo-viscoplasticity for case-hardening steels over a wide temperature range",

abstract = "The aim of this work is the development of a thermodynamically consistent fully coupled finite-strain thermo-viscoplastic material model for metals. The model is based on a split of the free energy into a thermo-elastic, a thermo-plastic and a purely thermal part and covers nonlinear cold-work hardening and thermal softening. Nonlinear temperature dependent effects are accounted for the elastic moduli, the plastic hardening moduli, the thermal expansion, the heat capacity and the heat conductivity. Furthermore, strain rate-dependency of the current yield stress is realized using a temperature dependent nonlinear Perzyna-type viscoplastic model based on an associative flow rule. The model and its parameters are fitted against experimental data for case hardening steel 16MnCr5 (1.7131).",

keywords = "Thermoplasticity, Material Model, Thermomechanics",

author = "Philip Oppermann and Ralf Denzer and Andreas Menzel",

year = "2019",

month = nov,

day = "18",

doi = "10.1002/pamm.201900237",

language = "English",

volume = "19",

pages = "e201900237",

booktitle = "Proceedings in Applied Mathematics & Mechanics",

publisher = "Wiley-VCH Verlag",

address = "Germany",

note = "GAMM Annual Meeting, 2019 ; Conference date: 18-02-2019 Through 22-02-2019",

url = "https://jahrestagung.gamm-ev.de/index.php/2019/2019-annual-meeting",

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TY - GEN

T1 - Finite-strain thermo-viscoplasticity for case-hardening steels over a wide temperature range

AU - Oppermann, Philip

AU - Denzer, Ralf

AU - Menzel, Andreas

N1 - Conference code: 90

PY - 2019/11/18

Y1 - 2019/11/18

N2 - The aim of this work is the development of a thermodynamically consistent fully coupled finite-strain thermo-viscoplastic material model for metals. The model is based on a split of the free energy into a thermo-elastic, a thermo-plastic and a purely thermal part and covers nonlinear cold-work hardening and thermal softening. Nonlinear temperature dependent effects are accounted for the elastic moduli, the plastic hardening moduli, the thermal expansion, the heat capacity and the heat conductivity. Furthermore, strain rate-dependency of the current yield stress is realized using a temperature dependent nonlinear Perzyna-type viscoplastic model based on an associative flow rule. The model and its parameters are fitted against experimental data for case hardening steel 16MnCr5 (1.7131).

AB - The aim of this work is the development of a thermodynamically consistent fully coupled finite-strain thermo-viscoplastic material model for metals. The model is based on a split of the free energy into a thermo-elastic, a thermo-plastic and a purely thermal part and covers nonlinear cold-work hardening and thermal softening. Nonlinear temperature dependent effects are accounted for the elastic moduli, the plastic hardening moduli, the thermal expansion, the heat capacity and the heat conductivity. Furthermore, strain rate-dependency of the current yield stress is realized using a temperature dependent nonlinear Perzyna-type viscoplastic model based on an associative flow rule. The model and its parameters are fitted against experimental data for case hardening steel 16MnCr5 (1.7131).

KW - Thermoplasticity

KW - Material Model

KW - Thermomechanics

U2 - 10.1002/pamm.201900237

DO - 10.1002/pamm.201900237

M3 - Paper in conference proceeding

VL - 19

SP - e201900237

BT - Proceedings in Applied Mathematics & Mechanics

PB - Wiley-VCH Verlag

T2 - GAMM Annual Meeting, 2019

Y2 - 18 February 2019 through 22 February 2019

ER -

Finite-strain thermo-viscoplasticity for case-hardening steels over a wide temperature range

Sammanfattning

Konferens

Ämnesklassifikation (UKÄ)

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Forskningsoutput

Finite-strain thermo-viscoplasticity for case-hardening steels over a wide temperature range

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