
handle: 10054/11126
Recrystallized commercial purity aluminum samples were deformed to true strains of 0.095 and 0.262 by uniaxial tension. Microtexture data were analyzed to quantify orientation gradients between the grain interior and the grain boundary of nearest neighbor crystallites. The gradients were characterized in terms of the length over which a significant gradient was observed and the maximum misorientation. Estimated length ratios were observed to obey an inverse power law relationship with Taylor factor(s).
Plastic Deformation, Evolution, Ebsd, Compression, Polycrystalline Copper, Strain, Taylor Factor, Deformation Texture Prediction, Grain Interaction, Crystal Plasticity, Orientation Gradient, Microstructure, Simulation, Aluminum, Model
Plastic Deformation, Evolution, Ebsd, Compression, Polycrystalline Copper, Strain, Taylor Factor, Deformation Texture Prediction, Grain Interaction, Crystal Plasticity, Orientation Gradient, Microstructure, Simulation, Aluminum, Model
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