On the cyclic stability and fatigue performance of ultrafine-grained interstitial-free steel under mean stress

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

Externe Organisationen

  • Universität Paderborn
  • Koc University
  • Texas A and M University
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Details

OriginalspracheEnglisch
Seiten (von - bis)39-52
Seitenumfang14
FachzeitschriftKey Engineering Materials
Jahrgang378-379
PublikationsstatusVeröffentlicht - 2008
Extern publiziertJa

Abstract

This paper reports on the fatigue performance of an ultrafine-grained (UFG) interstitial-free (IF) steel deformed at various mean stress levels. The UFG microstructure was achieved using equal channel angular extrusion processing at room temperature (RT) and along an "efficient" route, giving way to the formation of high angle grain boundaries (HAGBs) with a high volume fraction. The current study not only confirms the previous finding that a high volume fraction of HAGBs promotes cyclic stability, but also inquires into the role of mean stress level on the cyclic stability. It is shown that the UFG IF steel exhibits a stable cyclic deformation response in the lowcycle fatigue regime within the medium applied mean stress range of -75 to 75 MPa. The corresponding fatigue lives can still be predicted with the Smith-Watson-Topper approach within this range. Furthermore, the present study demonstrates that the evolution of mean strains with cyclic deformation can be linked to the evolution of mean stresses in strain-controlled loading.

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On the cyclic stability and fatigue performance of ultrafine-grained interstitial-free steel under mean stress. / Niendorf, Thomas; Maier, Hans J.; Canadinc, Demircan et al.
in: Key Engineering Materials, Jahrgang 378-379, 2008, S. 39-52.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Niendorf, T, Maier, HJ, Canadinc, D & Karaman, I 2008, 'On the cyclic stability and fatigue performance of ultrafine-grained interstitial-free steel under mean stress', Key Engineering Materials, Jg. 378-379, S. 39-52.
Niendorf, T., Maier, H. J., Canadinc, D., & Karaman, I. (2008). On the cyclic stability and fatigue performance of ultrafine-grained interstitial-free steel under mean stress. Key Engineering Materials, 378-379, 39-52.
Niendorf T, Maier HJ, Canadinc D, Karaman I. On the cyclic stability and fatigue performance of ultrafine-grained interstitial-free steel under mean stress. Key Engineering Materials. 2008;378-379:39-52.
Niendorf, Thomas ; Maier, Hans J. ; Canadinc, Demircan et al. / On the cyclic stability and fatigue performance of ultrafine-grained interstitial-free steel under mean stress. in: Key Engineering Materials. 2008 ; Jahrgang 378-379. S. 39-52.
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abstract = "This paper reports on the fatigue performance of an ultrafine-grained (UFG) interstitial-free (IF) steel deformed at various mean stress levels. The UFG microstructure was achieved using equal channel angular extrusion processing at room temperature (RT) and along an {"}efficient{"} route, giving way to the formation of high angle grain boundaries (HAGBs) with a high volume fraction. The current study not only confirms the previous finding that a high volume fraction of HAGBs promotes cyclic stability, but also inquires into the role of mean stress level on the cyclic stability. It is shown that the UFG IF steel exhibits a stable cyclic deformation response in the lowcycle fatigue regime within the medium applied mean stress range of -75 to 75 MPa. The corresponding fatigue lives can still be predicted with the Smith-Watson-Topper approach within this range. Furthermore, the present study demonstrates that the evolution of mean strains with cyclic deformation can be linked to the evolution of mean stresses in strain-controlled loading.",
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TY - JOUR

T1 - On the cyclic stability and fatigue performance of ultrafine-grained interstitial-free steel under mean stress

AU - Niendorf, Thomas

AU - Maier, Hans J.

AU - Canadinc, Demircan

AU - Karaman, Ibrahim

PY - 2008

Y1 - 2008

N2 - This paper reports on the fatigue performance of an ultrafine-grained (UFG) interstitial-free (IF) steel deformed at various mean stress levels. The UFG microstructure was achieved using equal channel angular extrusion processing at room temperature (RT) and along an "efficient" route, giving way to the formation of high angle grain boundaries (HAGBs) with a high volume fraction. The current study not only confirms the previous finding that a high volume fraction of HAGBs promotes cyclic stability, but also inquires into the role of mean stress level on the cyclic stability. It is shown that the UFG IF steel exhibits a stable cyclic deformation response in the lowcycle fatigue regime within the medium applied mean stress range of -75 to 75 MPa. The corresponding fatigue lives can still be predicted with the Smith-Watson-Topper approach within this range. Furthermore, the present study demonstrates that the evolution of mean strains with cyclic deformation can be linked to the evolution of mean stresses in strain-controlled loading.

AB - This paper reports on the fatigue performance of an ultrafine-grained (UFG) interstitial-free (IF) steel deformed at various mean stress levels. The UFG microstructure was achieved using equal channel angular extrusion processing at room temperature (RT) and along an "efficient" route, giving way to the formation of high angle grain boundaries (HAGBs) with a high volume fraction. The current study not only confirms the previous finding that a high volume fraction of HAGBs promotes cyclic stability, but also inquires into the role of mean stress level on the cyclic stability. It is shown that the UFG IF steel exhibits a stable cyclic deformation response in the lowcycle fatigue regime within the medium applied mean stress range of -75 to 75 MPa. The corresponding fatigue lives can still be predicted with the Smith-Watson-Topper approach within this range. Furthermore, the present study demonstrates that the evolution of mean strains with cyclic deformation can be linked to the evolution of mean stresses in strain-controlled loading.

KW - Cyclic stress-strain response

KW - Equal channel angular extrusion

KW - Fatigue life

KW - Interstitial-free steel

KW - Mean stress

KW - Ultrafine-grained materials

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AN - SCOPUS:43749121138

VL - 378-379

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JO - Key Engineering Materials

JF - Key Engineering Materials

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