Peter N. Kalu scite author profile

A fundamental understanding of the deformation mechanisms of superplasticity requires a detailed characterization of the microstructure. For certain studies, optical microscopy, transmission electron microscopy (TEM) and scanning electron microscopy (SEM) techniques used in conventional mode may be inadequate for detailed analysis. This paper presents the use of a newly developed technique, 'orientation imaging microscopy' (OIM) in characterizing the microstructure of an Al-8090 alloy deformed in uniaxial tension to strains of 15, 70 and 660% at 520°C and 5 × 10 − 4 s − 1 strain rate. In OIM the microstructure is constructed from the measured crystal orientations obtained from points on the specimen surface distributed in a hexagonal grid. Neighboring measurements with a misorientation greater than a specified value, , misorientation angle criteria (designated by the researcher) are deemed to define the location of grain boundaries. These boundary lines can be interpreted as high angle grain boundaries or subgrain boundaries depending on the value of. The implications of the analyses on superplastic deformation are discussed.

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The effect of off-axis thermomechanical processing on the mechanical behavior of textured 2095 Al–Li alloy

Lee

Kalu

Brandão

et al. 1999

Materials Science and Engineering: A

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Peter N. Kalu

Dislocation-particle interactions during high temperature deformation of two-phase aluminium alloys

Microstructure and tensile properties of nanostructured Cu-25wt%Ag

A JMAK-microhardness model for quantifying the kinetics of restoration mechanisms in inhomogeneous microstructure

Modeling the recrystallized grain size in single phase materials

In situ evidence of enhanced transformation kinetics in a medium carbon steel due to a high magnetic field

The plasticity of particle-containing polycrystals

Characterization of Al-8090 superplastic materials using orientation imaging microscopy

The effect of off-axis thermomechanical processing on the mechanical behavior of textured 2095 Al–Li alloy

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