Effects of quasi-carbonization process on the mechanical properties of spun yarn type quasi-carbon fabrics

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

Gamma-irradiation of carbon nanotube yarns in air has significantly improved the tensile strength and modulus of the yarns, presumably because of an increased interaction between the individual nanotubes. The improvement has been much greater for tightly structured yarns than for loosely structured

Phenolic resin is carbonized in flowing helium up to 110OC". The mechanical properties of carbonized products are closely related to the microstructure formed during carbonization. The microstructure of carbonized products is very porous. This porous structure is determined by the rate of gas evolut

## Re-Entry and Environmental Systems Division, General Electric Company, Philudelphia, Pennsylvania) and J. D. Latva (Air Force Ma&riuLs L&oratory, Wright-Patterson Air Force Base, Ohio). Multi-directional reinforced carbon-carbon composites that employ graphite fibers oriented in several princip