The importance of Ti alloys is increasing due to abundance of Ti mine on earth and improvements of Ti metallurgical technique. Mechanical properties of Ti alloy are better than those of steels, such as strength-to-weight ratio and corrosion resistance …etc. Mechanical properties of Ti alloys can be enhanced based on the demand. Development of joining process is always an important index in application of engineering alloys. Accordingly, the main subject of this study is concentrated on brazing Ti alloys. The study of infrared brazing Ti alloys using the Ti-based fillers are mainly focused in microstructure and phase transformation of the joint. Traditionally, the study of Ti brazing is emphasized on the SEM morphology and EDS chemical analysis results. It is difficult to unveil phase transformation of the brazed joint due inadequate resolution of the facilities. TEM analysis of the joint is required in the experiment. First, Ti-15Cu-15Ni, Ti-25Cu-15Ni, Ti-15Cu-25Ni are applied in brazing SP-700 substrate. There is eutectic in the center of joint for the 300s brazed specimen. Primary Ti2Ni and few α-Ti as well as Ti2Cu are observed in the central region of the joint using Ti-15Cu-15Ni and Ti-15Cu-25Ni fillers, respectively. In contrast, primary Ti2Cu is widely observed from the Ti-25Cu-15Ni brazed joint. Additionally, eutectoid α-Ti and Ti2Cu with retained β-Ti are also found next to the primary Ti2Cu. For the 1800s brazed specimen, the joint mainly consists of over-saturated α-Ti and retained β-Ti. Second, Ti-15Cu-15Ni braze is applied in brazing 3 different substrates, CP-Ti, SP-700 (