Flow Behavior of TA32 Titanium Alloy at High Temperature and Its Constitutive Model

In order to study the flow behavior of TA32 titanium alloy, a constitutive model was set up at high temperature. A tensile experiment was carried out at temperatures of 650 similar to 850 degrees C and strain rates of 0.1 similar to 0.0001 s(-1). The result indicates that the TA32 titanium alloy maintains a relatively good comprehensive performance at high temperature. Work hardening and dynamic recovery are exhibited in the tensile process in the temperature range of 650 similar to 750 degrees C and low strain rate range of 10(-1)similar to 10(-3) s(-1). However, the elongation of TA32 increases enormously and strength decreases clearly as the temperature rises to 800 degrees C; at the mean time, a steady stage of stress occurs. The constitutive model of Arrhenius-type was constructed by a specific correction method based on statistics and regularization. The comparison shows a more accurate flow predicted stress through the modified model compared to the conventional least squares model.