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Product Details:
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Product Name: | DM Silicon Carbide Heating Element | Condition: | New |
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Material: | Silicon Carbide (SiC) | Shape: | W/SC/SCR/DB/G/H/DM |
Power Source: | Electric | Working Temperature: | Up To 1450℃ |
Application: | Electric Furnaces | After-sales Service: | Online Support |
High Light: | DM Silicon Carbide Heating Element,DM SIC heater element,SCR SIC heater element |
Silicon Carbide Heating Elements Complete Specifications
Silicon Carbide Heating Element General Description
Silicon carbide heating element is a kind of non-metal high temperature electric heating element. It is made of selected high quality green silicon carbide as main material, which is made into blank, siliconization under high temperature and recrystallized. It is the most popular type of economical heating element capable of operating under hot and rigorous environments.
Silicon Carbide Heating Element Features
1. withstands as high as 1600°C
2. high strength and excellent shock resistance
3. heat source is free of noise and air pollution
4. anti-oxidization, anti- corrosion
5. easy to installation and maintenance
Applications of Silicon Carbide Heating Element
There are ED, U, W, H, Gun, Single Spiral, Double Spirals, Dumbbel, Door-like types and etc. which are widely used in various high temperature electric furnaces in air, vacuum and other protection gas environments and other electric heating devices, such as industries of magnet, ceramics, powder metallurgy, glass and machinery, etc.
Normally the following should be given when describing any type of SiC heating elements:
Physical property of SIC heating element
specific gravity | 2.6~2.8g/cm³ | bend strength | >300kg |
hardness | >9MOH’S | tensile strength | >150kg/cm³ |
porosity rate | <30% | radiance | 0.85 |
Recommended surface load and Influences to Surfaces of the Elements in Different Operating TemperatureS
atmosphere | Furnace Temperature(°C) | Surface Load(W/cm2) | The influence on the Rod |
Ammonia | 1290 | 3.8 | The action on SiC produces methane and destroys the protection film of SiO2 |
Carbon dioxide | 1450 | 3.1 | Corrode SiC |
Carbon monoxide | 1370 | 3.8 | Absorb carbon powder and influence the protection film of SiO2 |
Halogen | 704 | 3.8 | Corrode SiC and destroy the protection film of SiO2 |
Hydrogen | 1290 | 3.1 | The action on SiC produces methane and destroys the protection film of SiO2 |
Nitrogen | 1370 | 3.1 | The action on SiC produces insulating layer of silicon nitride |
Sodium | 1310 | 3.8 | Corrode SiC |
silicon dioxide | 1310 | 3.8 | Corrode SiC |
Oxygen | 1310 | 3.8 | SiC oxidized |
Water-vapor | 1090-1370 | 3.1-3.6 | The action on SiC produces hydrate of silicon |
Hydrocarbon | 1370 | 3.1 | Absorb carbon powder resulted in Hot pollution |
Notice for using and installing:
1. Heater should be protected against damp during storing or installing to ensure the performance of the heater.
2. In order to be sure of well-distributed lod of each and groups, heater should be divided before assembling. The tolerance of the resistance of each one cannot exceed by 10% each other.
3. Heater is hard and brittle, please be careful when assembling and maintaining so as to avoid damage.
4. When operating the electric furnace at the beginning, the voltage should be increased slowly and cannot be fully loaded at once. Otherwise the larger current will be resulted in the damage of heater.
5. When heater is damaged and need to be changed, the resistance of new one should follow the increasing resistance. If many are damaged or resistance increased too much, heater should be changed.
Contact Person: chen
Tel: +8615903677007