Introduction Silicon Carbide Ceramic Burner Tube
Industrial silicon carbide burner tube has industrial properties such as high strength, no slag, no cracking, long service life and easy replacement. Because of its own industrial properties, silicon carbide nozzles can be widely used in roller kiln, tunnel kiln, shuttle kiln and many other ideal fire kiln furniture,especially suitable for ceramic, chemical, glass, metallurgy and other industries using natural gas, liquefied gas, coal gas, diesel oil and other industrial furnaces.
Silicon carbide burner tube has been well recognized by the market and audience because of its advanced wear resistance performance, and the prospects are excellent. However, in a wide range of applications, the silicon carbide nozzle will also be damaged.
Characteristics Silicon Carbide Ceramic Burner Tube
Here are some reasons why the silicon carbide nozzle is damaged:
- Temperature damage: overheating will have certain damage to the silicon carbide nozzle designed for non-high temperature applications.
- Accidental damage: In the installation and cleaning, the silicon carbide nozzle may be accidentally damaged due to the use of incorrect tools.
- Improper installation:Off-center washers, over-tightening, or other positional changes can have undesirable effects.
- Corrosion and wear: The material on the surface of the silicon carbide nozzle and the inner flow passage gradually becomes larger or deformed, thus affecting the flow rate, pressure and spray shape.
- Adhesion: Splatter, fog, or chemical accumulation of material on the inside or outside of the edge of the silicon carbide nozzle caused by liquid evaporation can leave a dry solidified layer,and block the nozzle or internal circulation channel.
- Blocking: dirt or other impurities in the liquid block the nozzle orifice,thus limiting the flow rate of the nozzle and interfering with the spray shape and uniformity.
Technical Data Sheet of Silicon Carbide Ceramic Burner Tube
Item | Unit | Data |
Max Working temperature | ℃ | 1380 |
Density | g/cm³ | ≥3.02 |
Porosity | % | <0.1% |
Bending Strength | Mpa | 250(20℃) |
Mpa | 280(1200℃) | |
Modulus of elasticity | Gpa | 330(20℃) |
Gpa | 300(1200℃) | |
Thermal conductivity | W/m.k | 45(1200℃) |
Coefficient of thermal expansion | K-1×10-6 | 4.5 |
Rigidity | 13 | |
Acid alkaline-proof | Excellent |
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