Microstructure and hot deformation behavior of the Cu-Sn-Ni-Zn-Ti (-Y) alloy

The effects of Y addition on the microstructure evolution in the Cu-Sn-Ni-Zn-Ti alloys during hot deformation were investigated. The hot deformation experiments were carried out using a Gleeble-1500 simulator and the Cu-Sn-Ni-Zn-Ti and Cu-Sn-Ni-Zn-Ti-Y alloys deformed at 550-950 degrees C with 0.001-10 s-1 strain rate. The constitutive equations were constructed, and the hot deformation activation energy of the two alloys was calculated. Based on the true stress-strain curves and electron backscattered diffraction image analysis, it was concluded that the addition of 0.1 wt% rare earth Y element can promote dynamic recrystallization. The pole figures demonstrated the texture change from {011}(112) Brass texture and {001}(100) Cube texture to {111}(211) R texture after Y addition. The microstructure and precipitates of the Cu-Sn-Ni-Zn-Ti alloy were analyzed by transmission electron microscopy, and Cu4Ti precipitates were present in the alloy. The continuous dynamic recrystallization and the discontinuous dynamic recrystallization were the two main recrystallization mechanisms of the Cu-Sn-Ni-Zn-Ti alloy.

Automated summary

The effects of Y addition on microstructure evolution in Cu-Sn-Ni-Zn-Ti alloys during hot deformation were investigated. Hot deformation experiments were conducted using a Gleeble-1500 simulator, deforming Cu-Sn-Ni-Zn-Ti and Cu-Sn-Ni-Zn-Ti-Y alloys at temperatures ranging from 550 to 950 degrees C and strain rates of 0.001-10 s-1. Constitutive equations were constructed and the hot deformation activation energy of the two alloys was calculated. It was found that the addition of 0.1 wt% rare earth Y element can promote dynamic recrystallization based on analysis of true stress-strain curves and electron backscattered diffraction images. Pole figures showed a texture change from {011}(112) Brass texture and {001}(100) Cube texture to {111}(211) R texture after Y addition. The microstructure and precipitates of the Cu-Sn-Ni-Zn-Ti alloy were analyzed, revealing the presence of Cu4Ti precipitates. Continuous dynamic recrystallization and discontinuous dynamic recrystallization were identified as the main recrystallization mechanisms in the Cu-Sn-Ni-Zn-Ti alloy.