Oxidation resistance and thermal stability of Ti(C,N) and Ti(C,N,O) coatings deposited by chemical vapor deposition

Ti0.51C0.24N0.25 and Ti0.51C0.26N0.21O0.02 coatings were deposited by medium temperature chemical vapor deposition, their oxidation resistance and thermal stability at 600 degrees C were compared. Ti(C,N,O) coating is oxidized faster than Ti(C,N) coating. The oxidation resistance of Ti(C,N,O) coating is impaired not only by the existence of more pores, fissures and cracks in the oxide layer, but also by lower interfacial adhesion. Higher tensile stress has a negative impact on the oxidation resistance of Ti(C,N,O) coating. It promotes the formation and development of more defects and cracks during cyclic oxidation, it is also harmful to the interfacial adhesion. Although the oxidation resistance of Ti(C,N,O) coating is inferior, the thermal stability is improved. The incorporation of oxygen slows down the phase transformation of Ti(C,N,O) at 600 C. During the annealing, the hardness of Ti(C,N,O) coating is always higher than that of Ti(C,N). (C) 2015 Elsevier Ltd. All rights reserved.