Various composites of Y2O3, CaO and Al2O3 were hot pressed at 1500°C /30 MPa for 30 min and then reacted with titanium alloy (Ti-6Al -4V) at 1700°C/30 min. The microstructure of the reaction interface was characterized and analyzed using x-ray diffraction (XRD) and scanning electron microscopy (SEM/EDS). The results indicate that after the specimen(Y2O3/CaO) has high temperture diffusion reactions with Ti-6Al-4V, just few O solute in Ti-6Al-4V. It forms Y2O3-x(Ca) which has a good effect on protecting the metal surface at the interface. The strutures of Widmanstätten in metel surface gradually decreased and almost disappeared with increasing in the amounts of Al2O3.Eventually, the amounts of β'-Ti increase,and turns to Ti3Al. Because that the value of electron affinity between Ti and Al is greater than the one bewteen Y and Al.YAM, YAP, CaYAlO4 and CaYAl3O7 react readily to form Y2O3-x(Ca) at the interface.Besides,It form Ti3Al or lamellar structure(Ti3Al+TiAl) since Ceramics has higher concentration of Al,which led Al acting as the solute in a matrix of Ti.