Author(s)

Chen Wang

School of Materials Engineering, Xi’an Aeronautical University, Xi’an, China.

The high temperature deformation behavior and microstructures evolution of TC17 alloy in the temperature range of 820°C - 930°C, strain rate range of 0.01 s^-1 - 10 s^-1 and height direction reduction of 20% - 80% have been studied by hot compressing testing. The microstructures of TC17 alloy were observed and analyzed using Olympus/PMG3 optical microscope. The flow stresses were correlated with strain rate and the temperature by the constitutive equation. The results show that the flow stress of TC17 alloy increase quickly with the strain, then decrease with a steady value. The deformation activation energy obtained in the α + β region for TC17 was 407 kJ/mol, and in the β region was 155 kJ/mol. It was also found that the degree of dynamic globularization of α phase increases with increasing strains, increasing temperature and decreasing strain rate in α + β region, the dynamic re-crystallization is obvious at low strain rate and dynamic recovery is obvious at high strain rate in β region.

TC17 Alloy, High Temperature Deformation, Flow Stress Model, Microstructure, Dynamic Recovery

Wang, C. (2018) High Temperature Deformation Behavior of TC17 Alloy. Materials Sciences and Applications, 9, 732-739. doi: 10.4236/msa.2018.99053.