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Effects of Zr/(Sc+Zr) microalloying on dynamic recrystallization, dislocation density and hot workability of Al−Mg alloys during hot compression deformation

Ying Deng, Xin-wen ZHU, Yi Lai, Yifan Guo, Le Fu, Guofu Xu, Jiwu Huang

2023Transactions of Nonferrous Metals Society of China23 citationsDOIOpen Access PDF

Abstract

The deformation behavior and microstructure characteristics of Al−6.00Mg, Al−6.00Mg−0.10Zr and Al−6.00Mg−0.25Sc−0.10Zr (wt.%) alloys were investigated by hot compression tests and electron microscopy methods. The results show that after deforming under the maximum processing efficiency condition (673 K, 0.01 s−1), dislocation densities of Al−6.00Mg, Al−6.00Mg−0.10Zr and Al−6.00Mg−0.25Sc−0.10Zr alloys are 2.68×1016, 8.93×1016 and 6.1×1017 m−2 respectively. Their dynamic recrystallization fractions are 19.8%, 15.0% and 12.7%, respectively. Kernel average misorientation (KAM) analyses indicate that dislocation accumulation near grain boundaries is enhanced by adding Zr or Sc+Zr. Besides, the established hot processing maps, based on the dynamic material model (DMM), reveal that the addition of Zr or Sc+Zr can reduce the range of low-temperature unstable domain but expand the unstable domain at high temperatures and high strains. The experimental results further verify that under the testing deformation condition, only the Al−6.00Mg−0.25Sc−0.10Zr alloy cracks at 773 K and 1s−1.

Topics & Concepts

Materials scienceDynamic recrystallizationMisorientationRecrystallization (geology)MicrostructureMetallurgyDeformation (meteorology)DislocationGrain boundaryComposite materialHot workingGeologyPaleontologyMetallurgy and Material FormingMicrostructure and mechanical propertiesAluminum Alloy Microstructure Properties