The role of hydrogen in tribological properties of diamond-like carbon films☆

Abstract Extensive research on diamond and diamondlike carbon (DLC) films in our laboratory has further confirmed that hydrogen plays an important role in the tribological properties of these films. Specifically, model experiments in inert gas environments revealed a very close relationship between the hydrogen-to-carbon (H/C) ratios of source gases and the friction and wear coefficients of the resultant DLC films. The friction coefficient of films grown in source gases with very high H/C ratios (e.g. 10) was superlow (0.003), whereas that of hydrogen-free DLC films (with essentially zero H/C ratio) was very high (0.65). The friction coefficients of films grown in source gases with intermediate H/C ratios were between 0.003 and 0.65. Experiments also revealed that the frictional properties of these films were very sensitive to test environments. Specifically, when tested in open air, the friction coefficient of hydrogen-free DLC dropped to 0.25, whereas that of highly-hydrogenated DLC increased to 0.06. Fundamental knowledge combined with surface analytical and tribological studies have led to the conclusion that the type and extent of chemical interactions between carbon–carbon, carbon–hydrogen, and carbon–adsorbate atoms at the sliding-contact interfaces determine the friction and wear properties of DLC films.

[1]  B. Bhushan Chemical, mechanical and tribological characterization of ultra-thin and hard amorphous carbon coatings as thin as 3.5 nm: recent developments , 1999 .

[2]  P. Wilbur,et al.  A tribological investigation of the graphite-to-diamond-like behavior of amorphous carbon films ion beam deposited on ceramic substrates☆ , 1991 .

[3]  G. Fenske,et al.  Effect of source gas chemistry on tribological performance of diamond-like carbon films. , 1999 .

[4]  Bharat Bhushan,et al.  Tribochemical Effects of Various Gases and Water Vapor on Thin Film Magnetic Disks With Carbon Overcoats , 1991 .

[5]  William B. White,et al.  Characterization of diamond films by Raman spectroscopy , 1989 .

[6]  J. Field The Properties of Diamond , 1979 .

[7]  C. Su,et al.  Thermal desorption of hydrogen from the diamond C(100) surface , 1998 .

[8]  S. Pepper Effect of electronic structure of the diamond surface on the strength of the diamond-metal interface , 1982 .

[9]  W. Meng,et al.  Tribology of metal-containing diamond-like carbon coatings , 1997 .

[10]  H. Ronkainen,et al.  Characterization of wear surfaces in dry sliding of steel and alumina on hydrogenated and hydrogen-free carbon films , 1994 .

[11]  Claus-Peter Klages,et al.  Microstructure and wear behavior of metal-containing diamond-like coatings , 1991 .

[12]  P. A. Willermet,et al.  Amorphous hydrogenated carbon films for tribological applications I. Development of moisture insensitive films having reduced compressive stress , 1997 .

[13]  F. P. Bowden,et al.  The friction of clean crystal surfaces , 1966, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[14]  Klas Hjort,et al.  Diamond and Amorphous Carbon MEMS , 2001 .

[15]  Ali Erdemir,et al.  Tribology of Diamond, Diamond-like Carbon and Related Films , 2000 .

[16]  P. Wilbur,et al.  The effects of beam energy and substrate temperature on the tribological properties of hard-carbon films on aluminum , 1992 .

[17]  T. Fischer,et al.  The effects of oxygen and humidity on friction and wear of diamond-like carbon films , 1991 .

[18]  A. Grill,et al.  Tribological behavior of diamond-like carbon: effects of preparation conditions and annealing , 1991 .

[19]  George R. Fenske,et al.  Synthesis of diamondlike carbon films with superlow friction and wear properties , 2000 .

[20]  F. P. Bowden,et al.  Friction of diamond, graphite, and carbon and the influence of surface films , 1951, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[21]  A. Voevodin,et al.  Pulsed laser deposition of diamond-like carbon wear protective coatings : a review , 1997 .

[22]  R. Walmsley,et al.  Carbon-Coated Sliders and Their Effect on Carbon Oxidation Wear , 1996 .

[23]  I. L. Singer,et al.  Superlow friction behavior of diamond-like carbon coatings: Time and speed effects , 2001 .