Infrared Honeycomb Ceramic Plate BBQ Plate for Gas Burner
Product Description
Infrared ceramic plate has an important application in the field of gas heating for technical ceramics. To improve the efficiency of heat exchange, radiation gas heaters should give out very little convection heat, and the wave length of radiation has to be in the infrared range. The gas flows through many parallel holes to the largest possible surface area for complete combustion. Infrared Honeycomb Ceramic Plate is widely used in gas radiant heaters and plays the most important part in those applications. The interlaced corrugated surface of the ceramic tile combined with honeycomb design basis provides a superb surface area and working burning surface. With all these advantages, the oxygen mix completely with the gas, burning without flame, emitting high efficiency far infrared ray and radiant heat, saving up to 40%-50% energy cost.
Properties:
*good compressive strength
*low density
*massive tiny holes
*good thermal shock resistance etc.
Applications:
Infrared ceramic plate is widely used in gas radiant heaters and plays the most important part in those applications. The interlaced corrugated surface of the ceramic tile combined with honeycomb design basis provides a superb surface area and working burning surface. We have also adopted the best raw material and new formula to maximize the micro-porosity of the tile. With all these advantages, the oxygen mix completely with the gas, burning without flame.
Properties:
*good compressive strength
*low density
*massive tiny holes
*good thermal shock resistance etc.
Applications:
Infrared ceramic plate is widely used in gas radiant heaters and plays the most important part in those applications. The interlaced corrugated surface of the ceramic tile combined with honeycomb design basis provides a superb surface area and working burning surface. We have also adopted the best raw material and new formula to maximize the micro-porosity of the tile. With all these advantages, the oxygen mix completely with the gas, burning without flame.
Item | Unit | Value |
Cell density | CPSI | 260-520 |
Wall thickness | Cm | 0.18-0.28 |
Open porosity | % | 63-73 |
Capacity | g/L | 0.45-0.65 |
Hot coefficient expansion | 10-6/k-1 | 2.0-2.5 |
Heat capacity | J/kg | 0.85-1.0 |
Thermal conductivity | W/MK | 1.5-2.5 |
Max use temperature | Celsius Degree | 1375 |
Compressive strength(vertical) | Mpa | ≥10 |
Name | Unit | Value |
SiO2 | % | 39-44 |
Al2O3 | % | 47 -52 |
MgO | % | 5-7 |
Fe2O3 | % | ≤1 |
TiO2 | % | ≤1.9 |
K2O+Na2O+CaO | % | ≤2 |
Material | Cordierite |
Density of hole | 260 cpsi, 280cpsi, 320cpsi, 520 cpsi |
Thickness of wall | 0.18-0.23mm / 0.28-0.33mm / 0.35-0.40mm |
Size of sides | 1.06mm 1.13mm 1.2mm |
Distance of two central holes | 1.33-1.59mm |
Porosity | 63.5-73.5% |
Water absorption | > 40% |
Thermal expansion | 2.0-2.5×10-6 |
Thermal stability | 1200celsius degree--25celsius degree,no crack |
Strength compressive | vertical>10.0Mpatransverse>3.0Mpa |