Effect of single-pass friction stir processing parameters on the microstructure and properties of 2 mm thick AA2524

Abstract: Friction stir processing (FSP) is an important method for obtaining fine grains. To determine the effects of FSP and processing parameters on the microstructure and mechanical properties of rolled sheets, we performed single-pass FSP of a 2 mm thick 2524 aluminium alloy (AA2524) rolled sheet by comparing the combination of different processing parameters. The results show that lamellar grains (rolled state) are replaced by fine dynamic recrystallisation in the stir zone (SZ), and more Al2CuMg phases are precip… Show more

“…When processing by friction with stir, severe plastic deformation accumulates, thermal effects occur in the processing zone, which leads to the formation of fine or ultrafine recrystallized grains [17][23] [24] . As the result, an increase of strength characteristics at room temperature [25] and an improvement of superplasticity are possible [26]- [30] . FSP is effective in terms of scalability and the result achieved.…”

Friction stir processing to improve grain refinement and superplasticity of Al-Mg-Mn-Cr alloy

“…When processing by friction with stir, severe plastic deformation accumulates, thermal effects occur in the processing zone, which leads to the formation of fine or ultrafine recrystallized grains [17][23] [24] . As the result, an increase of strength characteristics at room temperature [25] and an improvement of superplasticity are possible [26]- [30] . FSP is effective in terms of scalability and the result achieved.…”

Friction stir processing to improve grain refinement and superplasticity of Al-Mg-Mn-Cr alloy

Extensive analysis of the mechanical and microstructural properties of AA2024 alloy surface enhancement via friction stir processing