Hysteretic behavior in the direction of sliding is investigated for ki
nematically constrained slideways, using a special system produced to
study the limits of performance of thin-film polymer on glass bearings
. A typical configuration for a superprecision instrument slideway usi
ng PTFE pads and a Zerodur counterface is shown to exhibit around 200-
nm sliding hysteresis. Moreover, this value is strongly dependent on t
he total load on the bearing system. The pattern of dependence is cons
istent with an established model of contact under oblique forces, alth
ough the materials conditions at the interface are much more complex t
han those assumed in that model. Full isolation of these properties is
not possible with the present experiments, but they indicate that die
shear modulus of the interface layer is more than ten times greater t
han that of bulk polymer. (C) Elsevier Science Inc., 1997.