Dynamic Recrystallization of Cu-Cr-Ni-Si-Co Alloy During Hot Deformation

Hot compression deformation behavior of the Cu-0.45Cr-1.0Ni-0.28Si-0.14Co alloy was studied by a thermal-mechanical simulator at strain rates of 0.001-1 s(-1) and deformation temperatures of 700-900 degrees C. The microstructure and texture of the copper alloy after the hot compression deformation were investigated. The results showed that the flow behavior of the Cu-Cr-Ni-Si-Co alloy was significantly affected by the deformation temperature and strain rate. The typical dynamic recrystallization (DRX) occurred at high temperatures and low strain rates, while the typical dynamic recovery (DRV) appeared at low temperatures and high strain rates. When the deformation temperature increased from 700 degrees C to 900 degrees C, a transition from copper and S texture to gross texture was found. The value of hot deformation activation energy (Q) was calculated as 330.87 kJ/mol. The optimized hot deformation parameters for the Cu-Cr-Ni-Si-Co alloy were 800-850 degrees C/0.01-0.1 s(-1).

Automated summary

The hot compression deformation behavior of the Cu-0.45Cr-1.0Ni-0.28Si-0.14Co alloy was significantly affected by deformation temperature and strain rate, resulting in different microstructures and textures. The optimized hot deformation parameters for the alloy were found to be 800-850 degrees C at strain rates of 0.01-0.1 s(-1).