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Adhesion and friction properties of hydrogenated amorphous carbon films measured by atomic force microscopy

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Abstract

Atomic force microscopy has been used to measure adhesion and friction forces at the interface between an oxidized metal probe tip and amorphous carbon films of varying hydrogen contents (12.3–39.0 atomic percent hydrogen). The interface of an oxide surface and a hard carbon coating models the unlubricated head-disk interface of current hard disk products. Adhesion forces normalized by the radius of curvature of the contacting tip range from 1.09 to 8.53 N/m. Coefficients of friction values, measured as the slope of the friction versus load plot, range from 0.33 to 0.87. A trend of increasing adhesion forces and coefficients of friction is observed for increasing hydrogen content in the films. We attribute the increase in adhesion and friction to increases in the surface free energy of the carbon films with the incorporation of hydrogen.

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Author notes

  1. Scott S. Perry

    Present address: Department of Chemistry, University of Houston, 77204-5641, Houston, TX, USA

Authors and Affiliations

  1. Materials Science Division, Lawrence Berkeley Laboratory and Department of Chemistry, University of California, 97420, Berkeley, CA, USA

    Scott S. Perry & Gabor A. Somorjai

  2. IBM Almaden Research Center, 650 Harry Road, 95120, San Jose, CA, USA

    C. Mathew Mate

  3. Storage System Division, IBM, 95193, San Jose, CA, USA

    Richard L. White

Authors
  1. Scott S. Perry
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  2. Gabor A. Somorjai
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  3. C. Mathew Mate
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  4. Richard L. White
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Perry, S.S., Somorjai, G.A., Mate, C.M. et al. Adhesion and friction properties of hydrogenated amorphous carbon films measured by atomic force microscopy. Tribol Lett 1, 233–246 (1995). https://doi.org/10.1007/BF00209778

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