Add to ORKGThin sputter deposited MoS2 films in the 2000 to 6000 A thickness range have shown excellent lubricating properties, when sputtering parameters and substrate conditions are properly selected and precisely controlled. The lubricating properties of sputtered MoS2 films are strongly influenced by their crystalline-amorphous structure, morphology and composition. The coefficient of friction can range from 0.04 which is effective lubrication to 0.4 which reflects an absence of lubricating properties. Visual screening and slight wiping of the as-sputtered MoS2 film can identify the integrity of the film. An acceptable film displays a black-sooty surface appearance whereas an unacceptable film has a highly reflective, gray surface and the film is ...
MoS(x) lubricating thin films were deposited by nonreactive, reactive, and low energy ion-assisted r...
Molybdenum disulfide films 300 to 400 A thick were rf sputtered on aluminum and nickel surfaces at e...
MoS2 is usually applied as thick films (1 μm and above) on sliding counterparts to decrease friction...
The present practices, limitations, and understanding of thin sputtered MoS2 films are reviewed. Spu...
Three microstructural growth stages of sputtered MoS2 films were identified with respect to film thi...
Sputtered MoS2 films from 300 A to 20,000 A thick were deposited on metal and glass surfaces. The su...
Potential and present sputtering technology is discussed as it applies to the deposition of solid fi...
It is shown that the tribological quality of MoS2 lubricant films formed by magnetron sputtering is ...
Friction experiments in ultrahigh vacuum to evaluate sputtered MoS2 film lubricant
Molybdenum disulfide (MoS2) is a good solid film lubricant for vacuum and spacecraft applications. T...
Sputtered molybdenum disulfide film deposition and friction characteristics in vacuu
AuMoS2 films 0.02 to 1.2 microns thick were sputtered from target compacted from 5 wt % Au + 95 wt %...
MoS2 thin films are sputter-deposited in different conditions in order to obtain well-defined micros...
An optical microscope was used to study the lubrication and failure mechanisms of rubbed (burnished)...
An optical microscope was used to study the lubrication and failure mechanisms of rubbed MoS2 films ...
MoS(x) lubricating thin films were deposited by nonreactive, reactive, and low energy ion-assisted r...
Molybdenum disulfide films 300 to 400 A thick were rf sputtered on aluminum and nickel surfaces at e...
MoS2 is usually applied as thick films (1 μm and above) on sliding counterparts to decrease friction...
The present practices, limitations, and understanding of thin sputtered MoS2 films are reviewed. Spu...
Three microstructural growth stages of sputtered MoS2 films were identified with respect to film thi...
Sputtered MoS2 films from 300 A to 20,000 A thick were deposited on metal and glass surfaces. The su...
Potential and present sputtering technology is discussed as it applies to the deposition of solid fi...
It is shown that the tribological quality of MoS2 lubricant films formed by magnetron sputtering is ...
Friction experiments in ultrahigh vacuum to evaluate sputtered MoS2 film lubricant
Molybdenum disulfide (MoS2) is a good solid film lubricant for vacuum and spacecraft applications. T...
Sputtered molybdenum disulfide film deposition and friction characteristics in vacuu
AuMoS2 films 0.02 to 1.2 microns thick were sputtered from target compacted from 5 wt % Au + 95 wt %...
MoS2 thin films are sputter-deposited in different conditions in order to obtain well-defined micros...
An optical microscope was used to study the lubrication and failure mechanisms of rubbed (burnished)...
An optical microscope was used to study the lubrication and failure mechanisms of rubbed MoS2 films ...
MoS(x) lubricating thin films were deposited by nonreactive, reactive, and low energy ion-assisted r...
Molybdenum disulfide films 300 to 400 A thick were rf sputtered on aluminum and nickel surfaces at e...
MoS2 is usually applied as thick films (1 μm and above) on sliding counterparts to decrease friction...