Buy low price high quality Heat Storage Ceramic Substrate. Heat Storage Ceramic Substrate is a high-performance ceramic component engineered to absorb, store, and release heat energy efficiently, typically used in industrial furnaces, gas heaters, catalytic converters, and thermal energy systems. These substrates are designed with high thermal conductivity, thermal shock resistance, and structural stability at extreme temperatures.
Key Properties:
| Property | Description |
|---|---|
| Material | Cordierite, SiC, Alumina, Zirconia, etc. |
| Operating Temp | 🔥 1000–1600°C (material-dependent) |
| Thermal Shock Resistance | Excellent |
| Heat Storage Capacity | High – absorbs and slowly releases energy |
| Porosity / Geometry | Honeycomb, foam, or lattice for airflow |
| Chemical Resistance | Resistant to gases, acids, and combustion |
Applications:
Regenerative burners in furnaces
Gas heaters and radiant panels
Heat recovery systems
Energy-efficient kilns and ovens
Automotive catalytic converters (some versions)
Types of Heat Storage Ceramics:
| Material | Max Temp | Best For |
|---|---|---|
| Cordierite | ~1300°C | Low-expansion, gas burners |
| SiC (Silicon Carbide) | ~1600°C | High thermal shock, industrial kilns |
| Alumina | ~1700°C | High-temp, inert environments |
| Zirconia | ~2200°C | Extremely high-temp, niche uses |
Raw Substrate Ceramic refers to the base ceramic material in its unfinished or uncoated form, used as a foundation layer in electronic components, catalytic converters, heating elements, and other high-temperature or high-performance systems. It’s the starting platform before any metallic coating, machining, or functional treatment is applied.
