Genesis of superlow friction and wear in diamondlike carbon films

Diamondlike carbon (DLC) films offer enormous possibilities for applications that require low friction and high wear resistance. The range of physical, chemical, mechanical, electrical, and optical properties offered by these films is also exceptional and can meet the increasingly multifunctional application needs of machine elements, microelectronics, and biological systems. Since the early 1990s, carbon has been used as a precursor in our laboratory for the design and synthesis of superhard and low-friction carbon films. As a result of systematic studies over the years, in 1997, we developed a new class of DLC films that provide friction and wear coefficients of 0.001–0.005 and 10−10–10−9 mm3/N m, respectively, in inert-gas or vacuum test environments. This paper will mainly concentrate on the tribology of these superlow-friction carbon films and provide an update on our understanding of the fundamental tribological mechanisms of such films. It will also expand on the effects of hydrogen within the films and gaseous species within the test environments on friction and wear.