Interpretation of the strain state during cross-roll rolling of aluminum by means of texture analysis

S. H. Kim; H. G. Kang; M. Y. Huh; O. Engler

doi:10.1016/j.msea.2008.12.028

Interpretation of the strain state during cross-roll rolling of aluminum by means of texture analysis

S. H. Kim, H. G. Kang, M. Y. Huh, O. Engler

Research output: Contribution to journal › Article › peer-review

29 Citations (Scopus)

Abstract

Cross-roll rolling of aluminum alloy sheets was carried out in which the roll axes are tilted by ±7.5° away from the transverse direction of the rolled sample. The evolution of strain states during cross-roll rolling was studied by three-dimensional finite element method (FEM) simulations. The strain states calculated by FEM were verified by texture analysis. Cross-roll rolling was found to impose a large uniform shear strain over(ε{lunate}, ̇)₂₃ in the whole sheet thickness; nevertheless, cross-roll rolling gives rise to the formation of plane strain texture plus an asymmetrical rotated cube orientation {0 1 2} 〈1 0 0〉. After recrystallization, the large shear strain over(ε{lunate}, ̇)₂₃ led to a refinement of the microstructure, which may be beneficial to the formability of cross-roll rolled aluminum alloy sheet.

Original language	English
Pages (from-to)	121-128
Number of pages	8
Journal	Materials Science & Engineering A: Structural Materials: Properties, Microstructure and Processing
Volume	508
Issue number	1-2
DOIs	https://doi.org/10.1016/j.msea.2008.12.028
Publication status	Published - 2009 May 20

Keywords

Cross-roll rolling
Finite element method
Shear deformation
Strain state

ASJC Scopus subject areas

General Materials Science
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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10.1016/j.msea.2008.12.028

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abstract = "Cross-roll rolling of aluminum alloy sheets was carried out in which the roll axes are tilted by ±7.5° away from the transverse direction of the rolled sample. The evolution of strain states during cross-roll rolling was studied by three-dimensional finite element method (FEM) simulations. The strain states calculated by FEM were verified by texture analysis. Cross-roll rolling was found to impose a large uniform shear strain over(ε{lunate},{\. })23 in the whole sheet thickness; nevertheless, cross-roll rolling gives rise to the formation of plane strain texture plus an asymmetrical rotated cube orientation {0 1 2} 〈1 0 0〉. After recrystallization, the large shear strain over(ε{lunate},{\. })23 led to a refinement of the microstructure, which may be beneficial to the formability of cross-roll rolled aluminum alloy sheet.",

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AU - Kim, S. H.

AU - Kang, H. G.

AU - Huh, M. Y.

AU - Engler, O.

PY - 2009/5/20

Y1 - 2009/5/20

N2 - Cross-roll rolling of aluminum alloy sheets was carried out in which the roll axes are tilted by ±7.5° away from the transverse direction of the rolled sample. The evolution of strain states during cross-roll rolling was studied by three-dimensional finite element method (FEM) simulations. The strain states calculated by FEM were verified by texture analysis. Cross-roll rolling was found to impose a large uniform shear strain over(ε{lunate}, ̇)23 in the whole sheet thickness; nevertheless, cross-roll rolling gives rise to the formation of plane strain texture plus an asymmetrical rotated cube orientation {0 1 2} 〈1 0 0〉. After recrystallization, the large shear strain over(ε{lunate}, ̇)23 led to a refinement of the microstructure, which may be beneficial to the formability of cross-roll rolled aluminum alloy sheet.

AB - Cross-roll rolling of aluminum alloy sheets was carried out in which the roll axes are tilted by ±7.5° away from the transverse direction of the rolled sample. The evolution of strain states during cross-roll rolling was studied by three-dimensional finite element method (FEM) simulations. The strain states calculated by FEM were verified by texture analysis. Cross-roll rolling was found to impose a large uniform shear strain over(ε{lunate}, ̇)23 in the whole sheet thickness; nevertheless, cross-roll rolling gives rise to the formation of plane strain texture plus an asymmetrical rotated cube orientation {0 1 2} 〈1 0 0〉. After recrystallization, the large shear strain over(ε{lunate}, ̇)23 led to a refinement of the microstructure, which may be beneficial to the formability of cross-roll rolled aluminum alloy sheet.

KW - Cross-roll rolling

KW - Finite element method

KW - Shear deformation

KW - Strain state

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ER -

Interpretation of the strain state during cross-roll rolling of aluminum by means of texture analysis

Abstract

Keywords

ASJC Scopus subject areas

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