Oxidation of carbon/carbon composites—a theoretical analysis

This study investigates the oxidation mechanisms of carbon-carbon composite materials of the type used for aircraft brakes. The rate-controlling steps for oxidation at temperatures ranging between 450 and 750°C were determined by measuring activation energies of composite samples in bulk form and in

Carbon-carbon composites made from ex-acrylic fibres and pyrocarbon matrices have been gasified in air in order to investigate their resistance to oxidation. The carbon fibres and the surrounding pyrocarbon layers are preferentially oxidized due to a catalytic process. The importance of the catalyti

An investigation was made of the effects of oxidation on the wear of carbon-carbon composites for aircraft brake materials. Wear tests were performed on samples under various oxygen partial pressures, and measurements were made of wear rates in weight and thickness. Wear rate was found to increase w

Bromination by exposure to bromine vapor at room temperature was effective for inhibiting the oxidation of carbon-carbon composites in the form of PAN-based carbon fibers impregnated with resin. which was subsequently carbonized at 1000 or 2000°C. The oxidation rate was decreased by up to 43%. In ad

strains (about 2%) have been prepared and high perforreported for this graphitization that glassy carbon (GC) mance carbon fiber reinforced composites (CFRP) were constituting the matrix possibly changed to graphite due obtained using these fibers. The fibers have been prepared to the internal stres

## Carbon fibers and carbon/carbon composites have been treated with borate additives and then cured at 500-600°C to produce a continuous film of boron oxide on all exposed surfaces.This treatment has been found to be highly effective in retarding oxidation of the carbonaceous substrate for exten