Ch. Venner et Aa. Lubrecht, NUMERICAL-SIMULATION OF A TRANSVERSE RIDGE IN A CIRCULAR EHL CONTACT UNDER ROLLING SLIDING/, Journal of tribology, 116(4), 1994, pp. 751-761
This paper investigates the influence of a transverse ridge on the fil
m thickness in a circular EHL contact under rolling/sliding conditions
. It is a numerical simulation of the optical EHL work of Kaneta et al
. (1992). One of the purposes of this investigation is to check the va
lidity of the algorithm and the Newtonian, isothermal lubricant assump
tion for film thickness predictions under these conditions (p(h) = 0.5
4 GPa). It will be shown that, both quantitatively, the film thickness
on the central axis Y = 0, and qualitatively, the film thickness prof
ile through ''pseudo interference graphs'', the agreement between expe
riment and Newtonian isothermal theory is good. This supports the argu
ment that the rheological and the thermal behavior of the fluid only s
lightly influence the film thickness and pressure distribution of the
lightly loaded non-smooth contact case.