Wetting behavior、microstructural evolution and bonding strength of infrared brazed Ti50Ni50/CP-Ti and Ti50Ni50/Ti-15-3 alloy using two Ag-based fillers are studied.For using BAg-8 filler brazed CP-Ti and Ti50Ni50, the brazed joint mainly consists of Ag-rich matrix and many interfacial layers are observed including Ti2Cu、TiCu、Ti3Cu4、TiCu4 and CuNiTi layers. The brazed joint is mainly fractured along the central Ag-rich phase in which the fracture exhibits ductile mode with the shear strength of 250MPa . Raising the brazing time will deteriorate the strength due to the fracture mode transfers to ductile/brittle mixing mode caused by the thicker interficial Ti2Cu layer. For using BAg-8 filler brazed Ti50Ni50 and Ti-15-3 alloy, microstructure is smiliar to the joint of Ti50Ni50 and cp-Ti. The only differenece is the interficial layer between Ti50Ni50 and Ti-15-3 alloy is TiCu layer. Using Ticusil infrared brazed CP-Ti(Ti-15-3) and Ti50Ni50 at 950oC, the brazed joint is full of intermetallic phases which lead the fracture mode to brittle with the shear strength of 200~300 Mpa. For infrared brazed 304 and 422 stainless steels(SS) using CuMnNi brazes, a (Cu,γMn) primary phase is found in the brazed joint. Solidification shrinkage voids are also observed in the central region of the joint and the fracture mode along these central voids is ductile with the shear strength of 210~ 280MPa. The CuMnNi brazes can effectively wet all SS at appropriate temperatures and the interfacial cracks in between braze and substrate are greatly reduced with increasing the Ni addition in CuMnNi braze.