Strain hardening behavior of aluminum alloyed Hadfield steel single crystals

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  • University of Illinois Urbana-Champaign (UIUC)
  • Universität Paderborn
  • Tomsk State University
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Details

OriginalspracheEnglisch
Seiten (von - bis)1831-1842
Seitenumfang12
FachzeitschriftActa materialia
Jahrgang53
Ausgabenummer6
PublikationsstatusVeröffentlicht - Apr. 2005
Extern publiziertJa

Abstract

Very high strain hardening coefficients (=G/23) are observed for aluminum-alloyed face-centered cubic Hadfield steel single crystals under tensile loading. Alloying with aluminum suppressed deformation twinning in two of the three crystallographic orientations studied, and transmission electron microscopy results revealed the existence of dense dislocation walls (sheets) along crystallographic directions that form barriers to slip deformation. A visco-plastic self-consistent algorithm was modified to account for the interaction between the active slip systems and the high density dislocation walls, producing close prediction of the experimental strain hardening response. The model predicted the added hardening in single crystals deformed along [1̄11], [0 0 1] compared to the [1̄23] orientation, the increase in volume fraction of the dislocation walls with increased deformation and the role of twinning in the [1 2 3] orientation.

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Strain hardening behavior of aluminum alloyed Hadfield steel single crystals. / Canadinc, D.; Sehitoglu, H.; Maier, H. J. et al.
in: Acta materialia, Jahrgang 53, Nr. 6, 04.2005, S. 1831-1842.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Canadinc D, Sehitoglu H, Maier HJ, Chumlyakov YI. Strain hardening behavior of aluminum alloyed Hadfield steel single crystals. Acta materialia. 2005 Apr;53(6):1831-1842. doi: 10.1016/j.actamat.2004.12.033
Canadinc, D. ; Sehitoglu, H. ; Maier, H. J. et al. / Strain hardening behavior of aluminum alloyed Hadfield steel single crystals. in: Acta materialia. 2005 ; Jahrgang 53, Nr. 6. S. 1831-1842.
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title = "Strain hardening behavior of aluminum alloyed Hadfield steel single crystals",
abstract = "Very high strain hardening coefficients (=G/23) are observed for aluminum-alloyed face-centered cubic Hadfield steel single crystals under tensile loading. Alloying with aluminum suppressed deformation twinning in two of the three crystallographic orientations studied, and transmission electron microscopy results revealed the existence of dense dislocation walls (sheets) along crystallographic directions that form barriers to slip deformation. A visco-plastic self-consistent algorithm was modified to account for the interaction between the active slip systems and the high density dislocation walls, producing close prediction of the experimental strain hardening response. The model predicted the added hardening in single crystals deformed along [{\=1}11], [0 0 1] compared to the [{\=1}23] orientation, the increase in volume fraction of the dislocation walls with increased deformation and the role of twinning in the [1 2 3] orientation.",
keywords = "Crystal plasticity, Dislocation walls, Hadfield steel, Microstructure, Strain hardening",
author = "D. Canadinc and H. Sehitoglu and Maier, {H. J.} and Chumlyakov, {Y. I.}",
note = "Funding Information: This work was supported by the National Science Foundation Grant DMR-0313489. The authors are grateful to Dr. Carlos Tom{\'e} for kindly offering the Code VPSC Version 5.0 to be modified in the modeling effort presented in this paper.",
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Download

TY - JOUR

T1 - Strain hardening behavior of aluminum alloyed Hadfield steel single crystals

AU - Canadinc, D.

AU - Sehitoglu, H.

AU - Maier, H. J.

AU - Chumlyakov, Y. I.

N1 - Funding Information: This work was supported by the National Science Foundation Grant DMR-0313489. The authors are grateful to Dr. Carlos Tomé for kindly offering the Code VPSC Version 5.0 to be modified in the modeling effort presented in this paper.

PY - 2005/4

Y1 - 2005/4

N2 - Very high strain hardening coefficients (=G/23) are observed for aluminum-alloyed face-centered cubic Hadfield steel single crystals under tensile loading. Alloying with aluminum suppressed deformation twinning in two of the three crystallographic orientations studied, and transmission electron microscopy results revealed the existence of dense dislocation walls (sheets) along crystallographic directions that form barriers to slip deformation. A visco-plastic self-consistent algorithm was modified to account for the interaction between the active slip systems and the high density dislocation walls, producing close prediction of the experimental strain hardening response. The model predicted the added hardening in single crystals deformed along [1̄11], [0 0 1] compared to the [1̄23] orientation, the increase in volume fraction of the dislocation walls with increased deformation and the role of twinning in the [1 2 3] orientation.

AB - Very high strain hardening coefficients (=G/23) are observed for aluminum-alloyed face-centered cubic Hadfield steel single crystals under tensile loading. Alloying with aluminum suppressed deformation twinning in two of the three crystallographic orientations studied, and transmission electron microscopy results revealed the existence of dense dislocation walls (sheets) along crystallographic directions that form barriers to slip deformation. A visco-plastic self-consistent algorithm was modified to account for the interaction between the active slip systems and the high density dislocation walls, producing close prediction of the experimental strain hardening response. The model predicted the added hardening in single crystals deformed along [1̄11], [0 0 1] compared to the [1̄23] orientation, the increase in volume fraction of the dislocation walls with increased deformation and the role of twinning in the [1 2 3] orientation.

KW - Crystal plasticity

KW - Dislocation walls

KW - Hadfield steel

KW - Microstructure

KW - Strain hardening

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U2 - 10.1016/j.actamat.2004.12.033

DO - 10.1016/j.actamat.2004.12.033

M3 - Article

AN - SCOPUS:13844281572

VL - 53

SP - 1831

EP - 1842

JO - Acta materialia

JF - Acta materialia

SN - 1359-6454

IS - 6

ER -

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