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Carbon overcoat and the process dependence on its microstructure and wear characteristics
By: Siekhaus, W.; Salmeron, M.; Ogletree, D.F.; Marchon, B.; Veirs, K.; Khan, M.R.; Smallen, M.; Smith, S.; Fisher, R.D.; Heiman, N.; Hughes, G.F.;
1988 / IEEE
Description
This item was taken from the IEEE Periodical ' Carbon overcoat and the process dependence on its microstructure and wear characteristics ' Carbon films prepared by DC magnetron sputtering as an overcoat for rigid-disk thin film media are studied. The tribological or wear performance shows a strong dependence on the sputtering process. The microstructure of the carbon films was evaluated using transmission electron microscopy, scanning tunneling microscopy, and Raman scattering. The results show that the films with better wear performance have a more uniform grain size distribution with a higher percentage (2-3%) of SP bonded carbon atoms and have a homogeneous work function distribution as compared to the films with poor wear performance. Atomic resolution images show disorder of the carbon atoms on the surface; however, some hexagonal patterns extending over about 10 AA are visible.<
Related Topics
Protective Coating
Hard Magnetic Discs
Process Dependence
Microstructure
Wear Characteristics
Dc Magnetron Sputtering
Rigid-disk Thin Film Media
Transmission Electron Microscopy
Scanning Tunneling Microscopy
Raman Scattering
Uniform Grain Size Distribution
Homogeneous Work Function Distribution
Microstructure
Ferrite Films
Sputtering
Substrates
Head
Laboratories
Magnetic Force Microscopy
Scanning Electron Microscopy
Transmission Electron Microscopy
Tunneling
C Overcoat
Wear
Transmission Electron Microscope Examination Of Materials
Sputtered Coatings
Scanning Electron Microscope Examination Of Materials
Raman Spectra Of Inorganic Solids
Protective Coatings
Hard Discs
Carbon
Wear Resistant Coatings
Fields, Waves And Electromagnetics
Engineering
Sp/sup 3/ Bonded Atoms
