Electrically induced liquid infiltration for the synthesis of carbon/carbon–silicon carbide composite

The electrically induced liquid infiltration (EILI) method for the synthesis of carbon/carbon–silicon carbide (C/C–SiC) materials was developed. The method involves Joule preheating of a porous carbon/carbon preform surrounded by silicon media, followed by silicon infiltration into the pore structure, and its reaction with carbon to form pore-free C/C–SiC composite. This technique is characterized by high heating rates (102–103 K/s) and short processing times (5–20 s), which distinguish it from conventional approaches. The influence of maximum treatment temperature, as well as preheating rate on the depth of infiltration, reaction kinetics, and the material microstructure was investigated. C/C–SiC composite with a compressive strength which was twice that of the initial C/C material was synthesized.