Dynamic recrystallization mechanisms of 2195 aluminum alloy during medium/high temperature compression deformation

The 2195 aluminum alloy has been widely utilized in the aerospace field, of which dynamic recrystallization microstructures have a substantial effect on the mechanical properties of aerospace parts. In this study, 2195 aluminum alloy was compressed at 300-520 degrees C using a Gleeble 3500-GTC thermo-mechanical testing system. The discontinuous dynamic recrystallization (DDRX) and continuous dynamic recrystallization (CDRX) behavior of 2195 aluminum alloy at medium/high temperature was studied. The results demonstrated that during medium temperatures (300-360 degrees C) deformation the main softening mechanism was DDRX, and at high temperatures (420-520 degrees C), it was CDRX. CDRX of 2195 aluminum alloy involved three types of subgrain-forming mechanisms: dislocation tangling to form subgrains, microscopic shear bands to form subgrains, and the coalescence of two small subgrains to form larger subgrains. In addition, several recrystallized grains underwent geometric dynamic recrystallization (GDRX) at high temperature and extensive deformation (480 degrees C-80% or 520 degrees C-60%).

Automated summary

The study found that the 2195 aluminum alloy softens mainly through DDRX at medium temperatures and through CDRX at high temperatures. Additionally, the CDRX process involves multiple subgrain-forming mechanisms.