A model of the oxidation behaviour of C/C composites was developed. The pur
pose of the model is to predict the carbon loss that occurs at the outer su
rface and within the porosity of the composite. It rakes into account the t
ransport of species in the material, chemical gas-gas and gas-solid reactio
ns, the interaction of both transport phenomena and chemistry, the morpholo
gical parameters of the unoxidized composite and their evolution due to the
consumption of carbon inside the composite. In order to obtain the intrins
ic morphological parameters required to document the oxidation model, speci
fic experimental facilities were designed.
Two apparatuses for measuring porous solid permeability were designed. For
simple oxidation problems where Darcy's law is relevant, a small pressure g
radient facility was developed. For mixed oxidation/injection where Darcy's
law becomes irrelevant, another facility was designed. A more accurate and
complex momentum conservation law including a supplementary intrinsic morp
hological parameter (Ward number) was studied.
A morphological analysis of several C/C composites (from 2D to 3D), before
and after oxidation, was realized with the use of standard facilities such
as mercury porosimetry, helium pycnometry, image analysis and of permeabili
ty devices. The coherence between the morphological parameters determined b
y all these facilities was checked for uncoated and coated composites. (C)
1999 Elsevier Science Ltd. All rights reserved.