The polymer composite specimens were prepared with nylon 11 as the mat
rix material, CuS as the filler, and short fibers of carbon as the rei
nforcement. This was done because CuS filler has shown an unusual abil
ity in reducing the wear of a number of polymers including nylon. It w
as expected that the synergistic action of filler and fiber would prod
uce a highly wear-resistant material. The friction and wear behaviors
of the composite materials were investigated in a pin-on-disk system w
here sliding occurred under ambient conditions between the composite p
in and a tool steel counterface. The sliding conditions used were 1 m
s(-1) speed and 0.65 MPa contact pressure. When nylon was reinforced w
ith carbon fiber, wear acid the coefficient of friction were reduced c
onsiderably. Wear rate was the lowest for 20 vol.% fiber content and i
t was higher for both the lower and higher percentages of fiber. Wear
reduction was still more significant when carbon fiber was used for re
inforcement along with CuS as the filler. These differences in wear be
havior have been investigated in terms of the synergism between fiber
and CuS. This synergistic action occurred because of the role of fiber
in enhancing the decomposition of CuS which increased the adhesion be
tween the transfer film of the composite and the steel substrate.