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Crystallographic Texture Evolution in 1008 Steel Sheet During Multi-Axial Tensile Strain Paths

Published

Author(s)

Adam A. Creuziger, Lin Hu, Thomas H. Gnaeupel-Herold, Anthony D. Rollett

Abstract

This paper considers the crystallographic texture evolution in a 1008 low carbon steel. The texture evolution along uniaxial, plane strain and balanced biaxial strain states were measured. For uniaxial testing, grains tend to rotate such that the {111} slip directions are aligned with the loading axis. For plane strain and balanced biaxial strain states, the majority of grains are distributed with {111} plane parallel to the sample normal direction. In parallel, visco-plastic self consistent (VPSC) predictions of the texture evolution were made along same strain paths and strain increments. Comparisons between the measured texture evolution and computational texture evolution indicate that the VPSC model qualitatively predicts texture evolution, but the rate at which the texture evolution occurs is over predicted.
Citation
Metallurgical Transactions A-Physical Metallurgy and Materials Science
Volume
3

Citation

Creuziger, A. , Hu, L. , , T. and Rollett, A. (2014), Crystallographic Texture Evolution in 1008 Steel Sheet During Multi-Axial Tensile Strain Paths, Metallurgical Transactions A-Physical Metallurgy and Materials Science, [online], https://doi.org/10.1186/2193-9772-3-1 (Accessed May 24, 2022)
Created January 7, 2014, Updated November 10, 2018