Near-Edge X-ray Absorption Fine Structure Imaging of Spherical and Flat Counterfaces of Ultrananocrystalline Diamond Tribological Contacts: A Correlation of Surface Chemistry and Friction

A recently installed synchrotron radiation near-edge X-ray absorption fine structure (NEXAFS) full field imaging electron spectrometer was used to spatially resolve the chemical changes of both counterfaces from an ultra- nanocrystalline diamond (UNCD) tribological contact. A silicon flat and Si 3 N...

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Bibliographic Details
Published in:Tribology letters 2011-10, Vol.44 (1), p.99-106
Main Authors: Konicek, A. R., Jaye, C., Hamilton, M. A., Sawyer, W. G., Fischer, D. A., Carpick, R. W.
Format: Article
Language:English
Subjects:
ABSORPTION SPECTROSCOPY
CARBON
Chemistry and Materials Science
COATINGS
Conditioning
Corrosion and Coatings
DEPTH
Depth of field
Detectors
DIAMONDS
ELECTRON SPECTROMETERS
FINE STRUCTURE
Flat surfaces
FRICTION
HUMIDITY
Imaging
LAYERS
LUBRICATION
MATERIALS SCIENCE
Methods Paper
Nanotechnology
Organic chemistry
Physical Chemistry
SILICON NITRIDES
SOLID LUBRICANTS
SPECTROSCOPY
SPHERICAL CONFIGURATION
SUBSTRATES
Surface chemistry
Surface layers
SURFACES
Surfaces and Interfaces
Synchrotron radiation
Theoretical and Applied Mechanics
Thin Films
TRIBOLOGY
WEAR
X ray absorption
X-RAY SPECTROSCOPY
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Summary:A recently installed synchrotron radiation near-edge X-ray absorption fine structure (NEXAFS) full field imaging electron spectrometer was used to spatially resolve the chemical changes of both counterfaces from an ultra- nanocrystalline diamond (UNCD) tribological contact. A silicon flat and Si 3 N 4 sphere were both coated with UNCD, and employed to form two wear tracks on the flat in a linear reciprocating tribometer. The first wear track was produced using a new, unconditioned sphere whose surface was thus conditioned during this first experiment. This led to faster run-in and lower friction when producing a second wear track using the conditioned sphere. The large depth of field of the magnetically guided NEXAFS imaging detector enabled rapid, large area spectromicroscopic imaging of both the spherical and flat surfaces. Laterally resolved NEXAFS data from the tribological contact area revealed that both substrates had an as-grown surface layer that contained a higher fraction of sp 2 -bonded carbon and oxygen which was mechanically removed. Unlike the flat, the film on the sphere showed evidence of having graphitic character, both before and after sliding. These results show that the graphitic character of the sphere is not solely responsible for low friction and short run-in. Rather, conditioning the sphere, likely by removing asperities and passivating dangling bonds, leads to lower friction with less chemical modification of the substrate in subsequent tests. The new NEXAFS imaging spectroscopy detector enabled a more complete understanding of the tribological phenomena by imaging, for the first time, the surface chemistry of the spherical counterface which had been in continual contact during wear track formation.
ISSN:1023-8883
1573-2711
DOI:10.1007/s11249-011-9832-4