Determination of Flow Resistance Coefficient of Advanced Ceramic Materials

Advanced ceramic materials, known for their unique thermal and mechanical properties, are increasingly utilized in high-performance applications, including heat exchangers, filtration systems, and chemical reactors. Understanding the flow resistance characteristics of these materials is critical for optimizing their use in industrial systems. This paper focuses on the determination of flow resistance coefficients for various types of advanced ceramics using both experimental and theoretical methods. By analyzing flow behavior through porous structures, we provide insights into the relationship between porosity, material composition, and flow resistance, which are essential for designing efficient industrial processes. The results indicate that material porosity and surface roughness significantly influence the flow resistance coefficient, offering a guide for material selection and system optimization.