To explore the effect of micro-Zr alloying on the hot deformation microstructure of 6082 aluminum alloy and its subsequent recrystallization during heat treatment,the hot deformation behavior and micro-orientation evolution of 6082 aluminum alloy containing Zr at different strain rates (0.01,1 s-1) were comparatively studied.The evolution process of grain structure before and after heat treatment was analyzed,and the regulatory effect of Zr addition on the thermally deformed sub-grains and recrystallization of 6082 aluminum alloy was further discussed.The results show that the addition of Zr makes the recrystallization of 6082 aluminum alloy during the hot deformation process mainly perform discontinuous dynamic recrystallization,and the recrystallization generated by the particle stimulated nucleation(PSN) mechanism also occurs,and minor Zr addition also plays a role in inhibiting recrystallization in the hot deformation process.After the micro-Zr alloying,the subgrain size decreases,the dislocation density increases,the recrystallization level decreases,and the recrystallization level of the sample at a higher strain rate is lower,and the addition of Zr promotes the generation of the discontinuous dynamic recrystallization of 6082 aluminum alloy during hot deformation.
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