The temperature,duration,activation energy,and A vrami exponent of the solid phase transformation β1 → α+β2 of TC4 titanium alloy treated at 3 GPa in a cooling process are calculated by means of differential scanning calorimetric curves.Then the effects of high pressure on the β1 → α +β2 phase transformation dynamics of TC4 alloy in a cooling process are investigated.The results show that 3 GPa high pressure treatment can increase the activation energy of the TC4 alloy.The beginning time,end time,and duration of the β1 → α + β2 phase transition of the 3 GPa high pressure treated TC4 alloy at the cooling rate of l0℃/min are increased by 2.90℃,7.78℃ and-29.28 s respectively.It is known that 3 GPa high pressure treatment has little effect on the phase transition mechanism.