215. Structure of matrix carbon in carbon/carbon fibre composites

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

Mechanical properties of carbon/carbon composites prepared by thermal-gradient CVD technique were investigated by three-point flexural tests. The mechanical properties are strongly influenced by the matrix structure, which in turn depends on the deposition conditions employed. The lower fracture str

Carbon fibres are used for increasing the strength and stiffness of polymers and the strength of metals and ceramics. These improvements depend on the transfer of stress from the matrix (polymer, metal or ceramic) to the fibres across the interface. Thus, the interface, or rather, the thin inte~hasi

Carbon/carbon composites made from carbon mats and propane-derived pyrolytic carbon matrices have been characterized by optical microscopy and structural parameters such as density and apparent crystallite size. It is shown that the pyrolytic carbon matrices deposited by a thermal-gradient chemical