Superlubricity and wearless sliding in diamondlike carbon films.

Erdemir, A

doi:10.1557/PROC-697-P9.1

Title: Superlubricity and wearless sliding in diamondlike carbon films.

Conference · Thu Dec 13 00:00:00 EST 2001

DOI:https://doi.org/10.1557/PROC-697-P9.1· OSTI ID:793063

Erdemir, A

Diamondlike carbon (DLC) films have attracted great interest in recent years mainly because of their unusual optical, electrical, mechanical, and tribological properties. Such properties are currently being exploited for a wide range of engineering applications including magnetic hard disks, gears, sliding and roller bearings, scratch resistant glasses, biomedical implants, etc. Systematic studies on carbon-based materials in our laboratory have led to the development of a new class of amorphous DLC films that provide extremely low friction and wear coefficients of 0.001 to 0.005 and 10{sup -11} to 10{sup -10} mm{sup 3} /N.m, respectively, when tested in inert-gas or high-vacuum environments. These films were produced in highly hydrogenated gas discharge plasmas by a plasma enhanced chemical vapor deposition process at room temperature. The carbon source gases used in the deposition of these films included methane, acetylene, and ethylene. Tribological studies in our laboratory have established a very close correlation between the composition of the plasmas and the friction and wear coefficients of the resultant DLC films. Specifically, the friction and wear coefficients of DLC films grown in plasmas with higher hydrogen-to-carbon ratios were much lower than films derived from source gases with lower hydrogen-to-carbon ratios. Fundamental tribological and surface analytical studies have led us to conclude that hydrogen (within the film, as well as on the sliding surfaces) is extremely important for the superlubricity and wearless sliding behavior of these films. Based on these studies, a mechanistic model is proposed to explain the superlow friction and wear properties of the new DLC films.

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Research Organization:: Argonne National Lab., IL (US)

Sponsoring Organization:: US Department of Energy (US)

DOE Contract Number:: W-31-109-ENG-38

OSTI ID:: 793063

Report Number(s):: ANL/ET/CP-106440; TRN: US200206%%255

Resource Relation:: Journal Volume: 697; Conference: 2001 MRS Fall Meeting, Boston, MA (US), 11/26/2001--11/30/2001; Other Information: PBD: 13 Dec 2001

Country of Publication:: United States

Language:: English

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