Revealing the Geometrically Necessary Dislocation Density Evolution during Hot Compression of AA7050

Dislocations play a critical role in metal forming processes, and accurate values of dislocation density are important in modelling these processes. However, direct determination of the dislocation density is challenging. In this study, electron backscatter diffraction is used to estimate the evolut...

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Bibliographic Details
Published in:Key engineering materials 2022-06, Vol.922, p.109-116
Main Authors: Liu, Yao Qiong, Jiang, Shuai, Shi, Zhusheng, Gu, Bin, Li, Yi Bo, Yardley, Victoria A., Li, Ning
Format: Article
Language:English
Subjects:
Aluminum base alloys
Dislocation density
Electron backscatter diffraction
Evolution
Grain refinement
Hot pressing
Plastic deformation
Plastic flow
Strain rate
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Summary:Dislocations play a critical role in metal forming processes, and accurate values of dislocation density are important in modelling these processes. However, direct determination of the dislocation density is challenging. In this study, electron backscatter diffraction is used to estimate the evolution of geometrically necessary dislocation density as a function of plastic strain, strain rate and temperature in hot compression of AA7050 alloy. The geometrically necessary dislocation density was found to increase at a higher strain rate and lower temperature; the higher dislocation density in these samples promoted continuous dynamic recrystallisation leading to grain refinement. At lower strain rates and higher temperatures, the dislocation densities were lower and dislocations formed into walls, channels and cells. These observations agree with accepted theories of dislocation evolution and demonstrate the capability of electron backscatter diffraction to provide representative dislocation density values as well as comprehensive information linking plastic flow with microstructural evolution.Keywords: electron backscatter diffraction (EBSD), geometrically necessary dislocations (GNDs), hot deformation, AA7050
ISSN:1013-9826
1662-9795
1662-9795
DOI:10.4028/p-tunvtz