Fabrication and Testing of Corrugated 3D SiSiC Ceramics for Porous Burner Applications

Abstract: Non-oxide SiC ceramics can withstand high temperatures ~1400 °C in severe combustion environments. Therefore such ceramics are interesting candidates for advanced combustion technologies, e.g. sophisticated porous burners. For the fabrication of porous SiSiC ceramics the DLR developed a new technology based on carbon sheets and lamellae. These basic materials can be combined to lightweight 3D C/C stacks. Through the variation of the amplitude and number of lamellae per inch, the open porosity and orientation o… Show more

“…Recently driers. [12,13] Another approach to enhance IR emission are emitter plates with very thin and long channels perpendicular to the surface of the plate acting like black bodies (emissivity e ¼ 1). [14] Combustion in cellular structures can be improved by using catalysts.…”

Cellular Ceramics in Combustion Environments

“…Recently driers. [12,13] Another approach to enhance IR emission are emitter plates with very thin and long channels perpendicular to the surface of the plate acting like black bodies (emissivity e ¼ 1). [14] Combustion in cellular structures can be improved by using catalysts.…”

Cellular Ceramics in Combustion Environments

Reticulated SIC Foam X‐Ray CT, Meshing, and Simulation