Infrared Honeycomb Ceramic Plate for Burning Infrared Ceramic Plate
Product Description
Honeycomb ceramic as the infrared combustion ceramic plate is made by the high purity cordierite material and used in the gas-fired stove where it saves 20%-50% energy cost and reduces more than 90% of the harmful gas emission. This product has good thermal shock resistance (no cracks on the product if the honeycomb ceramic with 1000 is in the water with 20 for 3 times), high mechanical strength (crushing strength is 20MPa on the top and 5MPa on the side), good endurance for high temperature, high resistance for erosion.
The gas combustion is occurred inside the holes of the Infrared Ceramic Plate, and the heat energy is radiated high-efficiently in the means of ultra-red rays, avoiding energy loss through visible light. For the advantages of high combustion efficiency, well distributed heating and low exhaust gas emission, Ceramic Combustion Plate is proved to be an environmentally friendly heating technology, and it is the idea technology to replace the traditional gas combustion technology.
If coated with a black catalyst, the honeycomb ceramic can transfer the heat by infrared radiation style and this combustion style has more outstanding advantages comparing to the normal gas-fired stove combustion as below:
*20%-50% energy saving
*Mixes oxygen completely with the gas, burning efficiently with no flame and little noise
*Operating safety without being influenced by wind when operating outdoor
*Decreasing the CO and NOx poisonous gas disposal and remove harmful
Advantages:
*Save 20-50% energy consumption
*Burn without flame, low noise
*Reduce the formulation of such harmful gas as CO, NOx, etc by a large margin (more than 70%)
*Strong bearing of wind, using safely
Physical Merits:
*Good thermal shock resistance ( no cracks after 3 times thermal shock from 800 ° C to cold water)
*High mechanical strength ( crushing strength is 20MPa on the top and 5MPa on the side)
*Good endurance for high temperature
*High resistance for erosion
Application: Widely used in various burners, ovens, fryers, heaters and barbecue set which burn gas
The gas combustion is occurred inside the holes of the Infrared Ceramic Plate, and the heat energy is radiated high-efficiently in the means of ultra-red rays, avoiding energy loss through visible light. For the advantages of high combustion efficiency, well distributed heating and low exhaust gas emission, Ceramic Combustion Plate is proved to be an environmentally friendly heating technology, and it is the idea technology to replace the traditional gas combustion technology.
If coated with a black catalyst, the honeycomb ceramic can transfer the heat by infrared radiation style and this combustion style has more outstanding advantages comparing to the normal gas-fired stove combustion as below:
*20%-50% energy saving
*Mixes oxygen completely with the gas, burning efficiently with no flame and little noise
*Operating safety without being influenced by wind when operating outdoor
*Decreasing the CO and NOx poisonous gas disposal and remove harmful
Advantages:
*Save 20-50% energy consumption
*Burn without flame, low noise
*Reduce the formulation of such harmful gas as CO, NOx, etc by a large margin (more than 70%)
*Strong bearing of wind, using safely
Physical Merits:
*Good thermal shock resistance ( no cracks after 3 times thermal shock from 800 ° C to cold water)
*High mechanical strength ( crushing strength is 20MPa on the top and 5MPa on the side)
*Good endurance for high temperature
*High resistance for erosion
Application: Widely used in various burners, ovens, fryers, heaters and barbecue set which burn gas
Hole | Round hole | Square hole |
Material | cordierite | cordierite |
Volume density | 0.45-0.65g/L | 0.45-0.65g/L |
Hole density | 300-320 hole/in 2 | 260 hole/in 2 ,280 hole/in 2 ,320 hole/in 2 ,520 hole/in 2 |
Wall thickness | / | 0.18-0.23mm,0.28-0.33mm, 0.35-0.40mm |
Length of side of hole | / | 1.06mm,1.13mm,1.2mm |
Hole diameter | 1.12mm,1.25mm,1.42mm | / |
Distance between Two Holes Axis | 1.8mm,2.2mm,2.7mm | 1.33-1.59mm |
Open hole ratio | 33.5-46.5% | 63.5-73.5% |
Water-absorbing rate(%) | > 46% | > 40% |
thermal expansion coefficient | 2.0-2.3 × 10 -6 | 2.0-2.5 × 10 -6 |
Heat stability | 850 ° C--25 ° C, do not crack in three times | 1200 ° C--25 ° C, do not crack in the condition of reduplicate cooling |
Highest Working Temperature( ° C) | > 1375 ° C | > 1375 ° C |
Compression Strength (Lengthways) | >13.0Mpa | >10.0Mpa |
Compression Strength (Horizontal) | >6.0Mpa | >3.0Mpa |
Rotundity shape | Ellipse shape | ||
Specificationmm | Number of channels (holes /square inch) | Specification (mm) | Number of channels (holes /square inch) |
Φ 83 × 85 | 400 | T146.8 × 77 × 86.4 | 400 |
Φ 144 × 152.4 | 400 | T120.6 × 80 × 152.4 | 400 |
Φ 100 × 100 | 400 | T169.7 × 80.7 × 76.2 | 400 |
Φ 130 × 130 | 400 | T144.8 × 81.3 × 152.4 | 400 |
Φ 118 × 150 | 400 | T144.8 × 81 × 76.2 | 400 |
Φ 103 × 100 | 400 | T169.7 × 80.7 × 101.6 | 400 |
Φ 150 × 75 | 400 | T144.8 × 81.3 × 100 | 300 |
Φ 83 × 125 | 400 | T127 × 63.5 × 107 | 300 |
Φ 150 × 150 | 300 | T144.8 × 81.3 × 70 | 300 |
Φ 120 × 100 | 300 | T144.8 × 81.3 × 150 | 300 |
Φ 101.6 × 100 | 300 | Race track shape | |
Φ 94 × 100 | 300 | P120.65 × 80.01 × 76.2 | 400 |
Φ 85 × 70 | 300 | P120.65 × 80.01 × 76.2 | 200 |
Φ 93 × 76 | 200 | P144 × 68 × 150 | 400 |
Φ 118 × 76 | 200 | P125 × 80 × 100 | 400 |