This paper examines the role played by oxide layers in the deposition of ca
rbon on two 20Cr-25Ni-Nh-stabilized austenitic steels containing either zer
o or 0.56 wt% Si. Selective preoxidation, at 550 degreesC in Ar/H-2/H2O, wa
s used to produce regions covered by either chromia or silica or, in the si
licon-free alloy, to be bare metal. Deposition was performed, also at 550 d
egreesC, in a CO2/1% CO/1000 vppm C2H4 gas mixture having an estimated carb
on activity very much greater than unity. This gas also had an oxygen poten
tial sufficient to form magnetite, but not nickel oxide. It was found that,
even at these high carbon activities, none of the oxides formed could cata
lyze carbon deposition and that this occurred only when the gas had direct
access to the alloy substrate. The carbon filaments formed were found, by h
igh-resolution electron microscopy, to be solid, have a turbostratic struct
ure, and to contain at least one nickel particle at their tips. The source
of these nickel particles is the alloy substrate and a mechanism is propose
d for their formation.