The brazing of Ti alloy using Al-, Ag- and Ti-base filler alloys has been extensively studied. Based on previous studies, the Ti-base braze alloy is considered as one of the best choices for the filler metal due to their high shear strength and superior corrosion resistance. The microstructural evolution of infrared vacuum Ti alloy brazed joint using Ti-15Cu-15Ni is primarily depended upon the redistribution of the solute atoms, especially Cu and Ni. Three distinguished phases in the brazed joints can be observed in most brazed joints including continuous white phases, layered white and dark eutectoid phase, and acicular phase. Better microstructural homogeneity of joint can be achieved by using alloy clad fillers for short time and/or low temperature condition. Brazing using Wesgo Ticuni foils took the longest time to dissolve all of the clad layers into the melt during the brazing cycles; however, the most homogeneous brazed joints can be obtained from using higher brazing temperature and/or time. On the contrary, a huge amount of continuous Cu and Ni-rich Ti phases appeared at the joint brazed using traditional Ti-15Cu-15Ni filler. Additionally, the homogenization rate of the brazed joint is also affected by the alloy elements in Ti base metal. Based on the experimental observations, it shows the depletion rate of both Cu and Ni atoms in the Ti-15-3 brazed joint was the lowest, and that in the Ti-6Al-4V substrate was the highest.