Accurate description of the mechanical response of AZ31 Mg requires consideration of its strong anisotropy both at the single crystal and polycrystal levels, and its evolution with accumulated plastic deformation. In this paper, a self-consistent mean field crystal plasticity model, viscoplastic self-consistent (VPSC), is used for modeling the room-temperature deformation of AZ31 Mg. A step-by-step procedure to calibrate the material parameters based on simple tensile and compressive mechanical test data is outlined. It is shown that the model predicts with great accuracy both the macroscopic stress–strain response and the evolving texture for these strain paths used for calibration. The stress–strain response and texture evolution for loading paths that were not used for calibration, including off-axis uniaxial loadings and simple shear, are also well described. In particular, VPSC model predicts that for uniaxial tension along the through-thickness direction, the stress–strain curve should have a sigmoidal shape.
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October 2015
Research-Article
Application of the VPSC Model to the Description of the Stress–Strain Response and Texture Evolution in AZ31 Mg for Various Strain Paths
Nitin Chandola,
Nitin Chandola
Department of Mechanical and
Aerospace Engineering,
REEF,
University of Florida,
1350 North Poquito Road,
Shalimar, FL 32579
Aerospace Engineering,
REEF,
University of Florida,
1350 North Poquito Road,
Shalimar, FL 32579
Search for other works by this author on:
Raja K. Mishra,
Raja K. Mishra
General Motors Research and
Development Center,
30500 Mound Road,
Warren, MI 40890-9055
Development Center,
30500 Mound Road,
Warren, MI 40890-9055
Search for other works by this author on:
Oana Cazacu
Oana Cazacu
Department of Mechanical and
Aerospace Engineering,
REEF,
University of Florida,
1350 North Poquito Road,
Shalimar, FL 32579
e-mail: cazacu@reef.ufl.edu
Aerospace Engineering,
REEF,
University of Florida,
1350 North Poquito Road,
Shalimar, FL 32579
e-mail: cazacu@reef.ufl.edu
Search for other works by this author on:
Nitin Chandola
Department of Mechanical and
Aerospace Engineering,
REEF,
University of Florida,
1350 North Poquito Road,
Shalimar, FL 32579
Aerospace Engineering,
REEF,
University of Florida,
1350 North Poquito Road,
Shalimar, FL 32579
Raja K. Mishra
General Motors Research and
Development Center,
30500 Mound Road,
Warren, MI 40890-9055
Development Center,
30500 Mound Road,
Warren, MI 40890-9055
Oana Cazacu
Department of Mechanical and
Aerospace Engineering,
REEF,
University of Florida,
1350 North Poquito Road,
Shalimar, FL 32579
e-mail: cazacu@reef.ufl.edu
Aerospace Engineering,
REEF,
University of Florida,
1350 North Poquito Road,
Shalimar, FL 32579
e-mail: cazacu@reef.ufl.edu
1Corresponding author.
Contributed by the Materials Division of ASME for publication in the JOURNAL OF ENGINEERING MATERIALS AND TECHNOLOGY. Manuscript received August 8, 2014; final manuscript received June 30, 2015; published online August 6, 2015. Assoc. Editor: Said Ahzi.
J. Eng. Mater. Technol. Oct 2015, 137(4): 041007 (10 pages)
Published Online: August 6, 2015
Article history
Received:
August 8, 2014
Revision Received:
June 30, 2015
Citation
Chandola, N., Mishra, R. K., and Cazacu, O. (August 6, 2015). "Application of the VPSC Model to the Description of the Stress–Strain Response and Texture Evolution in AZ31 Mg for Various Strain Paths." ASME. J. Eng. Mater. Technol. October 2015; 137(4): 041007. https://doi.org/10.1115/1.4030999
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