High-Temperature Plastic Deformation Behaviour Of Powder Metallurgy Ti6al4v Alloy Prepared From Hdh Powder

Powder metallurgy (PM) Ti6Al4V alloy was prepared from HDH alloy powder by vacuum pressureless sintering. To study its high-temperature deformation behaviour, isothermal compression testing was carried out with temperature range of 900-1050 degrees C, strain rate range of 0.01-10 s(-1), and compression ratio of 60%. Based on the hot deformation data, the corresponding constitutive equation and hot processing map were clarified. The deformation activation energy for PM Ti6Al4V alloy was 606.5 kJ mol(-1). Its deformation instability zone was very small, locating in the range of 960 similar to 990 degrees C with strain rate >1 s(-1). PM Ti6Al4V alloy had large hot working window and good hot workability. The ideal hot processing domain was at 970-990 degrees C and 0.05-0.01 s(-1). Besides, the domain at 1000-1040 degrees C and 1-10 s(-1) was also suitable for hot processing. This study proposed an effective guidance for the hot deformation (e.g. forging, extrusion, rolling) of PM Ti6Al4V alloy.