In this paper, ductile Csf/Al2O3–BN composites were prepared by hot-press sintering. Effects of fiber contents on the mechanical performance and ablation behavior of the composites were investigated systematically. The results showed that all the composites fractured in non-brittle failure mode, exhibiting elastic region and non-linear region as shown in load–displacement curves. With the increase in fiber contents from 15 to 30vol%, mechanical properties of the obtained composites first increased, reached the peak values at fiber content of 25vol% and then decreased. When being exposed to high-speed oxyacetylene combustion flow for 60s, the composites with fiber contents of 15, 20 and 25vol% showed comparable ablation property and mass loss of 5.3, 7.2 and 8.4×10−4g/s, respectively. The ablation mechanisms include fiber and ceramic matrix oxidation, decomposition of mullite, evaporation of both B2O3 and SiO2, and mechanical exfoliation.