Wuhan Global Metal Engineering Co., Ltd
The pioneer manufacturer of heaters & sensors
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| Place of Origin: | China |
| Brand Name: | GME |
| Certification: | ISO9001 |
| Model Number: | OEM |
| Minimum Order Quantity: | 10pcs |
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| Packaging Details: | Standard Export Packing |
| Delivery Time: | 7-15days |
| Payment Terms: | L/C, D/A, D/P, T/T, Western Union, MoneyGram |
| Supply Ability: | 100000pcs/month |
| Max Working Temperature: | 1700℃ | Type: | Thermocouple Protection Tube |
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| Item: | Recrystallized Silicon Carbide Tube | ||
| High Light: | thermocouple accessories,thermocouple parts and components |
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Recrystallized Silicon Carbide Thermocouple Protection Tube/RSic tube
silicon carbide tube is mainly used in the production of aluminum, copper and zinc , as the lining material of the molten pool and electrolytic bath (reduction bath).The side lining of the reduction bath is eroding by aluminum and cryolite (used as additive), but Si3N4 bonded SiC material could not be eroded by aluminum, and do not have chemical reaction with cryolite.So this kind of material is ideal for the lining bricks of the electrolytic bath.In particular this kind of bricks have the excellent properties of high strength, abrasive resistance and nonconductive, so the copolymer (Al2O3 and Cryolite). The copolymer likes protective film to protect the working lining and improve the service life of electrolytic bath of silicon carbide pipe.
At the same time, the Si3N4 bonded SiC bricks have lower thermal conductivity than silicon bricks, so they can reduce the
thickness of the side wall or input higher power to expanse the loading capacity of the electrolytic bath, and to increase the
output.Because of the high resistivity of the material, it can reduce the power consumption of the side -wall about 15%, saving energy and protecting environment on the silicon carbide tube.
Specifications about the silicon carbide pipe:
1. Best producing technology in China. Our tubes can be instead of Japanese tubes in Aluminium melt furnace.
2 Very smooth surface to avoid any blotted metal liquid.
3. Good thermal conductivity.
4. High tempreature strength.
5. Special groove to be easy fixed.
PropertiesUnitRSiCContents: RSiCVol%> 99NSiC0Bulk Densityg/cm 32.65-2.75Apparent Porosity%15Modulus of rupture at 20°CMPa90-100Modulus of rupture at 1200°CMPa110Modulus of rupture at 1350°CMPa120Modulus of Crushing at 20°CMPa300Thermal conduction at 1200°Cw. m-1. k-136.6Thermal Expansion at 1200°Ca×10-6/°C4.69Thermal Shock Resistance at 1200°C GoodMax. Working Temperature°C1620(oxid)
PropertiesUnitRSiCContents: RSiCVol%> 99NSiC0Bulk Densityg/cm 32.65-2.75Apparent Porosity%15Modulus of rupture at 20°CMPa90-100Modulus of rupture at 1200°CMPa110Modulus of rupture at 1350°CMPa120Modulus of Crushing at 20°CMPa300Thermal conduction at 1200°Cw. m-1. k-136.6Thermal Expansion at 1200°Ca×10-6/°C4.69Thermal Shock Resistance at 1200°C GoodMax. Working Temperature°C1620(oxid)
Parameter
Properties Unit RSiC
Contents: RSiC Vol% > 99
NSiC 0
Bulk Density g/cm 3 2.65-2.75
Apparent Porosity % 15
Modulus of rupture at 20°C MPa 90-100
Modulus of rupture at 1200°C MPa 110
Modulus of rupture at 1350°C MPa 120
Modulus of Crushing at 20°C MPa 300
Thermal conduction at 1200°C w. m-1. k-1 36.6
Thermal Expansion at 1200°C a×10-6/°C 4.69
Thermal Shock Resistance at 1200°C Good
Max. Working Temperature °C 1620(oxid)
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