A review. Carbon films are distinguished by their special properties and the broad structural spectrum. Amorphous carbon films with dominating tetragonal bonds (ta-C films) represent a high potential for tribol. applications by their combination of superhardness and low adhesion. With the pulsed vacuum arc methods there are now industrial technologies available for the deposition of these promising protective coatings
Hyper-thermal species have been used to produce carbon-based films with mechanical and tribological ...
Mechanical-tribological investigations were performed on superhard amorphous carbon films. These fil...
In the recent years, diamond and diamond-like carbon films (DLC) with nearly ideal properties have b...
Tetrahedral bonded amorphous carbon films (ta-C) have a promising tribol. potential due to their uni...
Carbon films are distinguished by their very low friction coefficient of about 0.1 under dry frictio...
Super-hard amorphous carbon layers are new layers with superior sliding and wear protective properti...
Amorphous carbon with a diamond-like structure is the basis of a new generation of hard films for tr...
This book presents the status quo of the structure, preparation, properties and applications of tetr...
Hydrogen-free amorphous carbon films can be produced by sputtering or vacuum-arc discharge from a so...
Hard amorphous carbon films are a promising alternative for protection of surfaces against growing a...
The filtered cathodic vacuum arc (FCVA) technique has proved to be a promising method for deposition...
The filtered cathodic vacuum arc (FCVA) technique has proved to be a promising method for deposition...
The properties of a highly sp3 bonded form of amorphous carbon denoted ta-C deposited from a filtere...
During the nineties the Laser-Arc technology for the deposition of superhard amorphous carbon films ...
Hyper-thermal species have been used to produce carbon-based films with mechanical and tribological...
Hyper-thermal species have been used to produce carbon-based films with mechanical and tribological ...
Mechanical-tribological investigations were performed on superhard amorphous carbon films. These fil...
In the recent years, diamond and diamond-like carbon films (DLC) with nearly ideal properties have b...
Tetrahedral bonded amorphous carbon films (ta-C) have a promising tribol. potential due to their uni...
Carbon films are distinguished by their very low friction coefficient of about 0.1 under dry frictio...
Super-hard amorphous carbon layers are new layers with superior sliding and wear protective properti...
Amorphous carbon with a diamond-like structure is the basis of a new generation of hard films for tr...
This book presents the status quo of the structure, preparation, properties and applications of tetr...
Hydrogen-free amorphous carbon films can be produced by sputtering or vacuum-arc discharge from a so...
Hard amorphous carbon films are a promising alternative for protection of surfaces against growing a...
The filtered cathodic vacuum arc (FCVA) technique has proved to be a promising method for deposition...
The filtered cathodic vacuum arc (FCVA) technique has proved to be a promising method for deposition...
The properties of a highly sp3 bonded form of amorphous carbon denoted ta-C deposited from a filtere...
During the nineties the Laser-Arc technology for the deposition of superhard amorphous carbon films ...
Hyper-thermal species have been used to produce carbon-based films with mechanical and tribological...
Hyper-thermal species have been used to produce carbon-based films with mechanical and tribological ...
Mechanical-tribological investigations were performed on superhard amorphous carbon films. These fil...
In the recent years, diamond and diamond-like carbon films (DLC) with nearly ideal properties have b...
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