TITLE:
Microstructure Distribution Characteristics of High-Strength Aluminum Alloy Thin-Walled Tubes during Multi-Passes Hot Power Backward Spinning Process
AUTHORS:
Yuan Tian, Ranyang Zhang, Gangyao Zhao, Zhenghua Guo
KEYWORDS:
Cast High-Strength Aluminum Alloy Tube, Multi-Pass Hot Power Backward Spinning, FE Simulation, Microstructure Evolution
JOURNAL NAME:
Journal of Materials Science and Chemical Engineering,
Vol.11 No.7,
July
31,
2023
ABSTRACT:
The microstructure of the thin-walled tubes with high-strength aluminum alloy determines their final forming quality and performance. This type of tube can be manufactured by multi-pass hot power backward spinning process as it can eliminate casting defects, refine microstructure and improve the plasticity of the tube. To analyze the microstructure distribution characteristics of the tube during the spinning process, a 3D coupled thermo-mechanical FE model coupled with the microstructure evolution model of the process was established under the ABAQUS environment. The microstructure evolution characteristics and laws of the tube for the whole spinning process were analyzed. The results show that the dynamic recrystallization is mainly produced in the spinning deformation zone and root area of the tube. In the first pass, the dynamic recrystallization phenomenon is not obvious in the tube. With the pass increasing, the trend of dynamic recrystallization volume percentage gradually increases and extends from the outer surface of the tube to the inner surface. The fine-grained area shows the states of concentration, dispersion, and re-concentration as the pass number increases.