The Ablation Performance of Silicon Nitride/Boron Nitride Fibrous Monolithic Ceramics under an Oxyacetylene Combustion Torch

In this study, Si₃N₄/BN fibrous monolithic ceramics were successfully prepared by wet spinning extrusion and hot pressing, and the effects on its ablation performance and microstructure were studied. The samples were burned in an oxyacetylene flame for 60 s (Formula presented.) 30 to evaluate the ablation resistance. With the increase in ablation time, the fibrous monolithic ceramics exhibited specific mass and linear ablation rates, which show a trend of first increasing, then decreasing, and then increasing again. When the ablation time is 60 s (Formula presented.) 10, 60 s (Formula presented.) 20, and 60 s (Formula presented.) 30, the mass ablation rates of the fibrous monolithic ceramics are 1 (Formula presented.) 10⁻⁵ mg/s, −8.3 (Formula presented.) 10⁻⁶ mg/s, −6.7 (Formula presented.) 10⁻⁷ mg/s, respectively; the linear ablation rates are 4.7 (Formula presented.) 10⁻⁵ μg/s, −1.2 (Formula presented.) 10⁻⁵ μg/s and 1.7 (Formula presented.) 10⁻⁶ μg/s. After 60 s (Formula presented.) 30 of ablation, the surface oxides of the species are washed away by the oxyacetylene flame, revealing a porous coral-like structure with many cracks. A glass phase layer, predominantly constituted by sintering aids, envelops the Si₃N₄ ceramic surface on the ablated sample, serving as an effective barrier against additional ablation.