Structure and tribological properties of Si/a-C:H(Ag) multilayer film in stimulated body fluid*

Abstract: Si/a-C:H(Ag) multilayer films with different modulation periods are prepared to test their potential applications in human body. The composition, microstructure, mechanical and tribological properties in the simulated body fluid are investigated. The results show the concentration of Ag first decreases and then increases with the modulation period decreasing from 984 nm to 250 nm. Whereas the C content has an opposite variation trend. Notably, the concentration of Ag plays a more important role than the modula… Show more

“…However, some moving implants, such as joints, serve in environments where corrosion and wear coexist, requiring that the protective film possesses a lubrication effect. It is well-known that diamond-like carbon films are promising protective films with high hardness, low friction coefficient, high chemical inertness, high corrosion resistance, and good biocompatibility. − However, the friction coefficient of a pure hydrogenated amorphous carbon film is close to 0.25 and its wear rate is on the order of 10 –6 mm 3 ·N –1 ·m –1 , which makes it difficult to meet the needs of permanent implants. , Element doping is a recognized method of improving the tribological properties and corrosion resistance of DLC films. − Nevertheless, the introduction of different doping elements is bound to change the physical and chemical properties of the DLC film surface, thus affecting its biocompatibility. For example, F&H-DLC has been reported to exhibit strong antibacterial properties .…”

Bio-Tribology and Corrosion Behaviors of a Si- and N-Incorporated Diamond-like Carbon Film: A New Class of Protective Film for Ti6Al4V Artificial Implants

“…However, some moving implants, such as joints, serve in environments where corrosion and wear coexist, requiring that the protective film possesses a lubrication effect. It is well-known that diamond-like carbon films are promising protective films with high hardness, low friction coefficient, high chemical inertness, high corrosion resistance, and good biocompatibility. − However, the friction coefficient of a pure hydrogenated amorphous carbon film is close to 0.25 and its wear rate is on the order of 10 –6 mm 3 ·N –1 ·m –1 , which makes it difficult to meet the needs of permanent implants. , Element doping is a recognized method of improving the tribological properties and corrosion resistance of DLC films. − Nevertheless, the introduction of different doping elements is bound to change the physical and chemical properties of the DLC film surface, thus affecting its biocompatibility. For example, F&H-DLC has been reported to exhibit strong antibacterial properties .…”

Bio-Tribology and Corrosion Behaviors of a Si- and N-Incorporated Diamond-like Carbon Film: A New Class of Protective Film for Ti6Al4V Artificial Implants