Fabrication and Thermal Stability of Continuous Carbon Fiber Reinforced Alumina Matrix Composites via Sol-Gel Process

In this paper, continuous carbon fiber reinforced alumina matrix (C/Al2O3) composites were fabricated through the sol infiltration-drying-heat treatment route. In the composites, nano aluminum sol with high solid content was elected as raw material. Similarly, carbon fiber cloth preform with a laminated-stitched structure was chosen for reinforcement. The preparation process and high-temperature failure behavior of the composites under an inert atmosphere were studied emphatically. The results showed that the porosity of C/Al2O3 composites prepared by 28 cycles was 16.6%, and the three-point bending strength was 208.5 MPa at room temperature. The fracture toughness of composites was 8.1 MPa center dot m1/2, which was 102.5% higher than that of alumina ceramic. After 1 h high-temperature test at 1400 degrees C and 1600 degrees C under Ar, the strength retention rate of C/Al2O3 composites was 84.4% and 73.0%, respectively. SEM indicated the thermal mismatch between matrix and IP: 8.46.247.10 On: Tue, 13 Dec 2022 07:05:21 fibers contributed to the reduction in mechanical properties of C/Al2O3composites. American Scientific Publishers

Automated summary

Continuous carbon fiber reinforced alumina matrix composites were fabricated and their high-temperature failure behavior was studied in this paper. The composites exhibited low porosity, high bending strength, and fracture toughness. The strength retention rate of the composites after high-temperature testing was relatively high.