Abstract:Spherical titanium oxide agglomerated powder was prepared by spray drying method, and the agglomerated powder was densified by high temperature sintering and induction plasma spheroidization. The powder properties were characterized by scanning electron microscopy (SEM), Hall flowmeter and powder particle strength tester, and the effects of different densification processes on the powder particle strength, bulk density and fluidity were studied. Titanium oxide coating was desopited by atmospheric plasma spraying (APS) process, and the microstructure of the coating was investigated. The results showed that both high temperature sintering process and plasma spheroidization process can effectively improve the density of agglomerated titanium oxide powder. After high temperature sintering process, the fine particles inside the titanium oxide powder showed the trend of sintering and melting, and the agglomerated powder after plasma spheroidization directly formeds a dense spherical structure. Compared with the high temperature sintering process, the densification effect of plasma spheroidization process on titanium oxide powder was more obvious. The particle strength of the powder can reach 187.86 MPa, the bulk density can be increased from 0.79 g/cm3 to 1.69 g/cm3, and the fluidity can be accelerated from 163.22 s/50g to 100.27 s/50g. The porosity of the titanium oxide coating deposited by atmospheric plasma spraying is 2.8 %, which was higher than that of the coating prepared by agglomerated titanium oxide powder without densification process (7.2 %).The HV0.3 average microhardness of the coating increased from 434.18 to 744.37, and the average bonding strength of the coating increased from 11.07 MPa to 29.93 MPa