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Plastic Deformation Behavior of a Thermo-Mechanically Processed AZ31 Magnesium Alloy under a Wide Range of Temperature and Strain Rate

Published

Author(s)

Farhoud Kabirian, Akhtar S. Khan, Thomas H. Gnaupel-Herold

Abstract

Effects of texture evolution and grain refinement induced by Equal Channel Angular Pressing, ECAP, on mechanical responses of an extruded AZ31 magnesium alloy are investigated. Uniaxial compression loading is carried out under a wide range of temperature (77K-423K) and strain rate (10-4s-13000 s-1) along pressing direction (PD), transverse direction (TD), and normal direction (ND). The s-shape strain hardening curve which is the main characteristic of twin-dominated deformation shows a strong dependency on testing temperature and strain rate in the ECAPed material so that during loading at the highest temperature (423 K) and the lowest strain rate (10-4s-1), s-shape hardening is no longer present. However, measured texture under the mentioned loading condition reveals crystal reorientation due to twinning which implies that the absence of concaved-up stress-strain curve is not necessarily indicative of suppression of twinning. On the other hand, the measured texture during high temperature dynamic loading suggests saturation of twinning at smaller strains. Schmid factor maps, in agreement with Visco-Plastic Self Consistent (VPSC) models, suggest the higher activity of twinning and basal slip in plastic yielding of the extruded and ECAPed AZ31, respectively.
Citation
Journal of Alloys and Compounds
Volume
673

Keywords

Twinning, Anisotropic material, Mechanical testing, ECAP

Citation

Kabirian, F. , Khan, A. and Gnaupel-Herold, T. (2016), Plastic Deformation Behavior of a Thermo-Mechanically Processed AZ31 Magnesium Alloy under a Wide Range of Temperature and Strain Rate, Journal of Alloys and Compounds, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=920133 (Accessed December 26, 2024)

Issues

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Created July 14, 2016, Updated October 12, 2021