SHEAR-INDUCED BOUNDARY FILM FORMATION FROM DIALKYL SULFIDES ON COPPER

OCTAVIO JAVIER FURLONG; BRENDAN PAUL MILLER; WILFRED T. TYSOE

WEAR

ELSEVIER SCIENCE SA

Lugar: Amsterdam; Año: 2012 vol. 274 p. 183 - 187

0043-1648

The friction of a copper surface, which is exposed to diethyl disulfide (DEDS), dimethyl disulfide (DMDS) or dimethyl trisulfide (DMTS) while rubbing by a tungsten carbide pin, are explored in an ultrahigh vacuum tribometer to investigate the effect of the sulfur-to-carbon stoichiometry on gas-phase lubrication. Surface analyses by Auger spectroscopy of the wear scars after rubbing reveal that the amount of sulfur increases with sulfur content of the gas-phase lubricant, as anticipated. It is found that the friction reduction depends on the normal load, where the friction coefficient tends to decrease more at lower loads, and that the load at which the most friction-reducing tribofilm is formed depends on the stoichiometry of the gas-phase lubricant. DEDS (with a sulfur to carbon ratio of 0.5) only reduces the friction coefficient to a minimum value of ∼0.28 at a normal load of 0.25 N, for DMDS (S/C = 1.0) friction is reduced to ∼0.28 for loads below ∼0.7 N, and DMTS (S/C = 1.5) reduces friction to this value for all loads tested.