Journal
MATERIALS LETTERS
Volume 321, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.matlet.2022.132436
Keywords
Composite; Rotary swaging; Texture; Slip system
Funding
- [22-11949S]
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The study focuses on the structure investigations of newly designed electro-conductive Al-Cu composites produced via room temperature rotary swaging. The results show that the swaging route affects the activated slip systems and the development of dynamic recrystallization. Swaging with altering directions results in high presence of recrystallized grains and smaller average grain size.
The study focuses on structure investigations of newly designed electro-conductive Al-Cu composites produced via room temperature rotary swaging with constant and altering swaging directions. The swaging route affected the activated slip systems and the development of dynamic recrystallization. Altering the swaging direction supported the activation of {1 0 0} < 10-1 > slip system at the expense of the {1 1 1} < 1 1 0 > one. All the swaged composites featured the tendency to form four dominant ideal texture orientations - deformation textures Cu (90 degrees,35 degrees,45 degrees), B (120 degrees,55 degrees,45 degrees), and Bb (60 degrees,55 degrees,45 degrees), and recrystallization texture Cube (0 degrees,0 degrees,0-90 degrees). However, their volume fractions differed. Samples swaged with altering direction exhibited high fractions of Cube orientation. Dynamic recrystallization dominated over deformation strengthening for the final 10 mm diameter composite swaged with altering directions. This composite also featured the highest presence of recrystallized grains and the smallest average grain size (6.0 mu m).
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