Experimental and numerical investigation of deformation behavior of aluminum multi-crystals during simple shear

In this study, experimental data is obtained and CPFEM analysis is performed to characterize the constitutive response of f.c.c. crystalline materials. Dislocation density based crystal plasticity model have been used to elucidate the deformation mechanism of the crystalline materials with limited n...

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Aluminum
Anisotropy
Crystal structure
Crystallinity
Deformation mechanisms
Dislocation density
Mathematical models
Plastic deformation
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description In this study, experimental data is obtained and CPFEM analysis is performed to characterize the constitutive response of f.c.c. crystalline materials. Dislocation density based crystal plasticity model have been used to elucidate the deformation mechanism of the crystalline materials with limited number of grains. The simple shear experiment of multi crystal aluminum is analyzed for the first time. The results from initial orientation which affects the deformation of materials is predicted and analyzed. This research is expected to be a fundamental research about plastic deformation and anisotropy of materials.
doi_str_mv 10.1063/1.4938972
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source American Institute of Physics:Jisc Collections:Transitional Journals Agreement 2021-23 (Reading list)
subjects Aluminum
Anisotropy
Crystal structure
Crystallinity
Deformation mechanisms
Dislocation density
Mathematical models
Plastic deformation
title Experimental and numerical investigation of deformation behavior of aluminum multi-crystals during simple shear
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