Pj. Evans et al., SURFACE MODIFICATION OF AUSTENITIC STAINLESS-STEEL BY TITANIUM ION-IMPLANTATION, Surface & coatings technology, 71(2), 1995, pp. 151-158
The wear properties of AISI 316 austenitic stainless steel implanted w
ith Ti were investigated for ion doses in the range (2.3-5.4) x 10(16)
ions cm(-2) and average ion energies of 60 and 90 keV. The implanted
layer was examined by Rutherford backscattering, from which the retain
ed doses were determined, and glow discharge optical emission spectros
copy. Following implantation, the surface microhardness was observed t
o increase with the greatest change occurring at higher ion energy. Pi
n-on-disc wear tests and associated friction measurements were also pe
rformed under both dry and lubricated conditions using applied loads o
f 2 N and 10 N. In the absence of lubrication, breakthrough of the imp
lanted layer occurred after a short sliding time; only for a dose of 5
.1 x 10(16) ions cm(-2) implanted at an average energy of 90 keV was t
he onset of breakthrough appreciably delayed. In contrast, the results
of tests with lubrication showed a more gradual variation, with the e
xtent of wear decreasing with implant dose at both 2 N and 10 N loads.
Finally, the influence of Ti implantation on possible wear mechanisms
is discussed in the light of information provided by several surface
characterization techniques.