Effect of Oxidation Condition on Thermal Stability of Si-C-O Fiber Coated with SiO₂ Film

Abstract

To improve the high-temperature stability, Si-C-O fibers (Nicalon) were oxidized at temperatures of 1073-1773K under an oxygen partial pressures of 2.53×10⁴-1.01×10⁵Pa and then were exposed to 1773K in argon. X-ray diffraction, resistivity measurement and tensile test were conducted for both the oxidized and the exposed fibers. At an early stage of oxidation, the characteristics of oxidized fibers abruptly changed. This was because an incomplete SiO₂ coating caused pyrolysis of the fibers. High levels of tensile strength was retained in the as-oxidized state at elevated oxidation temperatures and under high oxygen partial pressure. The strength of the oxidized fiber could be controlled by the imperfections of the SiO₂ film. After exposure in argon, the highest strength was retained in the fiber oxidized at 1373K under an oxygen partial pressure of 2.53×10⁴Pa, that is, in the fiber having SiO²-film thickness of 0.2μm.