Influence of Pre-strain on Very-Low-Cycle Stress–Strain Response and Springback Behavior

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OriginalspracheEnglisch
Seiten (von - bis)33-41
Seitenumfang9
FachzeitschriftJournal of Materials Engineering and Performance
Jahrgang30
Ausgabenummer1
Frühes Online-Datum4 Jan. 2021
PublikationsstatusVeröffentlicht - Jan. 2021

Abstract

The influence of pre-strain on the very-low-cycle loading behavior as occurring, for example during roller leveling of sheet metals, is not yet fully understood. A key factor in this context is the stiffness of the material and its changes upon processing. To study the general mechanical property changes during low-cycle loading with small amplitudes for a wide variety of metals, sheet samples of mild steel DC01, pure copper CU-DHP and α-titanium are subjected to low-cycle tension–compression tests. The general influences of pre-strain and the applied strain amplitude are investigated regarding material hardening and changes in the elastic properties. It is shown that all tested materials feature changes in the Bauschinger behavior during cycling. The apparent elastic modulus of the materials decreases with increasing accumulated plastic strain, and the evolution depends on the strain amplitude and the pre-strain. For all three materials, changes in technical springback are present and depend on the loading history.

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Influence of Pre-strain on Very-Low-Cycle Stress–Strain Response and Springback Behavior. / Barienti, Khemais; Klein, Martin; Wackenrohr, Steffen et al.
in: Journal of Materials Engineering and Performance, Jahrgang 30, Nr. 1, 01.2021, S. 33-41.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Barienti, Khemais ; Klein, Martin ; Wackenrohr, Steffen et al. / Influence of Pre-strain on Very-Low-Cycle Stress–Strain Response and Springback Behavior. in: Journal of Materials Engineering and Performance. 2021 ; Jahrgang 30, Nr. 1. S. 33-41.
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title = "Influence of Pre-strain on Very-Low-Cycle Stress–Strain Response and Springback Behavior",
abstract = "The influence of pre-strain on the very-low-cycle loading behavior as occurring, for example during roller leveling of sheet metals, is not yet fully understood. A key factor in this context is the stiffness of the material and its changes upon processing. To study the general mechanical property changes during low-cycle loading with small amplitudes for a wide variety of metals, sheet samples of mild steel DC01, pure copper CU-DHP and α-titanium are subjected to low-cycle tension–compression tests. The general influences of pre-strain and the applied strain amplitude are investigated regarding material hardening and changes in the elastic properties. It is shown that all tested materials feature changes in the Bauschinger behavior during cycling. The apparent elastic modulus of the materials decreases with increasing accumulated plastic strain, and the evolution depends on the strain amplitude and the pre-strain. For all three materials, changes in technical springback are present and depend on the loading history.",
keywords = "copper, elastic modulus, fatigue, plastic pre-deformation, springback, steel, titanium",
author = "Khemais Barienti and Martin Klein and Steffen Wackenrohr and Sebastian Herbst and Florian N{\"u}rnberger and Maier, {Hans J{\"u}rgen}",
note = "Funding Information: Financial support of this study by Deutsche Forschungsgemeinschaft (Grant 290141559) is gratefully acknowledged. ",
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AU - Barienti, Khemais

AU - Klein, Martin

AU - Wackenrohr, Steffen

AU - Herbst, Sebastian

AU - Nürnberger, Florian

AU - Maier, Hans Jürgen

N1 - Funding Information: Financial support of this study by Deutsche Forschungsgemeinschaft (Grant 290141559) is gratefully acknowledged.

PY - 2021/1

Y1 - 2021/1

N2 - The influence of pre-strain on the very-low-cycle loading behavior as occurring, for example during roller leveling of sheet metals, is not yet fully understood. A key factor in this context is the stiffness of the material and its changes upon processing. To study the general mechanical property changes during low-cycle loading with small amplitudes for a wide variety of metals, sheet samples of mild steel DC01, pure copper CU-DHP and α-titanium are subjected to low-cycle tension–compression tests. The general influences of pre-strain and the applied strain amplitude are investigated regarding material hardening and changes in the elastic properties. It is shown that all tested materials feature changes in the Bauschinger behavior during cycling. The apparent elastic modulus of the materials decreases with increasing accumulated plastic strain, and the evolution depends on the strain amplitude and the pre-strain. For all three materials, changes in technical springback are present and depend on the loading history.

AB - The influence of pre-strain on the very-low-cycle loading behavior as occurring, for example during roller leveling of sheet metals, is not yet fully understood. A key factor in this context is the stiffness of the material and its changes upon processing. To study the general mechanical property changes during low-cycle loading with small amplitudes for a wide variety of metals, sheet samples of mild steel DC01, pure copper CU-DHP and α-titanium are subjected to low-cycle tension–compression tests. The general influences of pre-strain and the applied strain amplitude are investigated regarding material hardening and changes in the elastic properties. It is shown that all tested materials feature changes in the Bauschinger behavior during cycling. The apparent elastic modulus of the materials decreases with increasing accumulated plastic strain, and the evolution depends on the strain amplitude and the pre-strain. For all three materials, changes in technical springback are present and depend on the loading history.

KW - copper

KW - elastic modulus

KW - fatigue

KW - plastic pre-deformation

KW - springback

KW - steel

KW - titanium

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EP - 41

JO - Journal of Materials Engineering and Performance

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