Abstract:A series of TiCN nano-composite films with different powers of graphite target were prepared by magnetron sputtering technique. The microstructure and mechanical properties and friction and wear properties at room and high temperature of the films were investigated by X-ray diffractometer, CSM nano-indentation and high-temperature ball-on-disc tribometer. The results show that with the increase of the power of graphite target, the peak of TiN(111) becomes broad while the size of the grain becomes small, and the structure is close to the amorphous structure eventually. Along with carbon join, the films are hard and the hardness and elastic modulus increase. When the power of graphite target is 90 W, the two parameters reach the highest, 28.2 and 230 GPa, respectively. The friction coefficients of TiCN films at room temperature decrease and the traction-resistance property is obviously improved with increasing the power of graphite target. When the temperature reaches 300−500 ℃, the friction coefficient of TiCN films increases. The friction and wear properties of TiCN composite films are influenced by a series of factors such as the microstructure, water vapor and oxygen in the air and the ambient temperature.

Key words: film TiCN; magnetron sputtering; microstructure; mechanical property; friction; wear