Stressed-oxidation behavior of 2D CVI SiC/BN/SiC at elevated temperature in air

The stressed-oxidation behaviors of 2D woven SiCf/BN/SiC composites were investigated at 950 degrees C and 1100 degrees C in air. The different proportions (60%-90%) of the ultimate tensile strength (UTS) at corresponding temperatures were chosen as constant stress. The stressed-oxidation experiments were taken to failure or interrupted (240h). The UTS decreases by 20.75% at 950 degrees C and 30.71% at 1100 degrees C. The composites did not fail during stressed oxidation when subjected to constant stress corresponding to the initial linear and the beginning of nonlinear segments of the tensile curve, above which the composites failed with a maximum failure life of about 10h. Fiber degradation due to the thermal exposure and the fiber cracks caused by the oxidation of BN interface coating and SiC fiber could be responsible for the strength degradation and failure of the composites during stressed oxidation.

Automated summary

The stressed-oxidation behaviors of 2D woven SiCf/BN/SiC composites were studied at 950 degrees C and 1100 degrees C. The ultimate tensile strength (UTS) decreased by 20.75% at 950 degrees C and 30.71% at 1100 degrees C. The composites did not fail during stressed oxidation when subjected to constant stress corresponding to the initial linear and the beginning of nonlinear segments of the tensile curve, but failed after reaching a certain stress level. Fiber degradation and cracking caused by oxidation of BN interface coating and SiC fiber were responsible for strength degradation and failure of the composites.