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Silicon Carbide Ceramic Rod SiC Heaing Element
U-Type Sic Spiral Heating Element Rod U-Type Sic Spiral Heating Element Rod U-Type Sic Spiral Heating Element Rod U-Type Sic Spiral Heating Element Rod U-Type Sic Spiral Heating Element Rod

U-Type Sic Spiral Heating Element Rod

SiC heating element is widely used in high temperatue furnaces. It can be used in air, vacuum and other protection gas enviroments.

  • item no. :

    CS-THG-BU001
  • Color :

    Black
  • Port :

    Any ports of China
  • lead date :

    5-7 days
  • Material : Silicon Carbide

  • Purity : 99%

  • Shape : U-shape

  • Original Country : China

  • description

U-Type Sic Spiral Heating Element Rod


Silicon Carbide Heating Rod Features                                                                                                                         

1. The Silicon Carbide Heating Rod has excellent thermal shock resistance and high thermal efficiency. 

2. Silicon Carbide Heating Rods are used in many high temperature applications such as furnace heating, sintering, heat treatment, glass and ceramic production and other temperature control processes. 

3. Silicon Carbide Heating Rods are constructed from high purity Silicon Carbide materials, providing superior performance, low cost and long working life. 

4. Silicon Carbide Heating Rods can withstand high temperatures up to 1472°F (800°C) and can be used in a wide range of applications.

5. Silicon Carbide Heating Rods are available in a variety of shapes, sizes and lengths to meet your needs.



Heating Rod Applications                                                                                                                                               

1.They are commonly used in kilns, furnaces, boilers, ovens, and other high-temperature applications. 

2.They are also used in semiconductor fabrication, glass production, and metal processing. 

3.Silicon Carbide Heating Rods can also be used in the production of chemicals, ceramics, and food processing equipment. 

4.Silicon Carbide Heating Rods are highly heat conductive, making them an efficient and cost-effective choice for many heating applications.



Sic Heating Element Rod Propeties                                                                                                                                

PROPERTIES UNIT VALUE
Color / Gray
Hardness Mohs 9.5
Density g/cm3 3
Thermal conductivity at Btu/fthF @300 50
Compressive Strength PSI 500,000
Flexural Strength PSI 70,000
Max service temperature 1600
Linear Coe. Of thermal Expansion (25C-600C) 10-6/ 4

Heating Rod Specifications                                                                                                                                                                           

U-type Heating Elements Heating zone OD / mm Heating zone Length  / mm Cold zone Length  / mm center distance  / mm Bridge OD  / mm Overall length  / mm Range of resistance / Ω Purity
CS-THG-BU001 14 200 250 40 14 54 2.4-4.6 99%
CS-THG-BU002 14 250 300 50 14 64 3.0-6.0 99%
CS-THG-BU003 14 300 350 60 14 74 3.6-7.0 99%
CS-THG-BU004 16 200 250 40 16 56 1.4-2.8 99%
CS-THG-BU005 16 250 300 50 16 66 1.8-3.6 99%
CS-THG-BU006 16 300 350 60 16 76 2.0-5.0 99%
CS-THG-BU007 18 300 350 60 18 78 2.0-5.0 99%
CS-THG-BU008 18 400 400 70 18 88 2.8-5.8 99%
CS-THG-BU009 18 500 450 75 18 93 3.6-7.2 99%
CS-THG-BU010 20 250 300 50 20 70 1.8-3.6 99%
CS-THG-BU011 20 300 350 60 20 80 2.0-5.0 99%
CS-THG-BU012 20 400 400 70 20 90 2.8-5.8 99%
CS-THG-BU013 25 400 400 70 25 95 1.6-3.4 99%
CS-THG-BU014 25 500 450 75 25 100 2.2-4.4 99%
CS-THG-BU015 25 600 500 80 25 105 2.6-5.2 99%
CS-THG-BU016 30 600 400 70 30 100 1.4-2.8 99%
CS-THG-BU017 30 700 450 75 30 105 1.6-3.2 99%
CS-THG-BU018 30 800 500 80 30 110 1.8-3.6 99%

Three Phase Type Heat zone OD / mm Heating zone length / mm Cold zone Length / mm center distance / mm Bridge OD / mm Overall length / mm Purity
CS-THG-BF001 14 200 250 40 14 54 99%
CS-THG-BF002 14 250 300 50 14 64 99%
CS-THG-BF003 14 300 350 60 14 74 99%
CS-THG-BF004 16 200 250 40 16 56 99%
CS-THG-BF005 16 250 300 50 16 66 99%
CS-THG-BF006 16 300 350 60 16 76 99%
CS-THG-BF007 18 300 350 60 18 78 99%
CS-THG-BF008 18 400 400 70 18 88 99%
CS-THG-BF009 18 500 450 75 18 93 99%
CS-THG-BF010 20 250 300 50 20 70 99%
CS-THG-BF011 20 300 350 60 20 80 99%
CS-THG-BF012 20 400 400 70 20 90 99%
CS-THG-BF013 25 400 400 70 25 95 99%
CS-THG-BF014 25 500 450 75 25 100 99%
CS-THG-BF015 25 600 500 80 25 105 99%
CS-THG-BF016 30 600 400 70 30 100 99%
CS-THG-BF017 30 700 450 75 30 105 99%
CS-THG-BF018 30 800 500 80 30 110 99%

Sic Heating Element Type OD / mm Heating zone length / mm Cold zone length / mm Range of resistance / Ω Purity
CS-THG-BC001 14 200 250 1.2-1.3 99%
CS-THG-BC002 14 250 250 1.5-3.0 99%
CS-THG-BC003 14 300 250 1.8-3.5 99%
CS-THG-BC004 14 400 350 2.3-4.7 99%
CS-THG-BC005 14 500 350 2.9-5.9 99%
CS-THG-BC006 16 200 200 0.9-1.9 99%
CS-THG-BC007 16 250 200 1.2-2.4 99%
CS-THG-BC008 16 300 300 1.4-2.8 99%
CS-THG-BC009 18 250 250 0.9-1.8 99%
CS-THG-BC010 18 300 350 1.1-2.2 99%
CS-THG-BC011 18 400 250 1.4-2.9 99%
CS-THG-BC012 18 500 350 1.8-3.6 99%
CS-THG-BC013 20 200 200 0.6-1.2 99%
CS-THG-BC014 20 250 250 0.7-1.4 99%
CS-THG-BC015 20 300 300 0.8-1.6 99%
CS-THG-BC016 20 400 350 1.1-2.2 99%
CS-THG-BC017 20 500 400 1.4-2.8 99%
CS-THG-BC018 20 600 350 1.5-3.0 99%
CS-THG-BC019 25 300 400 0.6-1.3 99%
CS-THG-BC020 25 400 400 0.8-1.7 99%
CS-THG-BC021 25 500 400 1.1-2.2 99%
CS-THG-BC022 25 600 500 1.3-2.6 99%
CS-THG-BC023 25 800 450 1.7-3.4 99%
CS-THG-BC024 25 900 400 1.9-3.8 99%
CS-THG-BC025 25 1000 500 2.2-4.5 99%
CS-THG-BC026 30 400 400 0.5-0.9 99%
CS-THG-BC027 30 500 400 0.6-1.2 99%
CS-THG-BC028 30 1000 500 1.1-2.2 99%
CS-THG-BC029 30 1200 500 1.3-2.6 99%
CS-THG-BC030 30 1300 500 1.4-2.9 99%
CS-THG-BC031 30 1500 250 1.6-3.4 99%
CS-THG-BC032 30 1500 300 1.6-3.4 99%
CS-THG-BC033 30 1500 600 1.6-3.4 99%
CS-THG-BC034 30 2000 650 2.2-4.4 99%
CS-THG-BC035 35 400 400 0.4-0.8 99%
CS-THG-BC036 35 500 400 0.5-1.0 99%
CS-THG-BC037 35 1000 500 1.0-2.0 99%
CS-THG-BC038 35 1200 500 1.1-2.2 99%
CS-THG-BC039 35 1500 500 1.4-2.8 99%
CS-THG-BC040 40 400 400 0.3-0.7 99%
CS-THG-BC041 40 1000 500 0.8-1.7 99%
CS-THG-BC042 40 1500 500 1.3-2.6 99%
CS-THG-BC043 40 2000 650 1.7-3.4 99%
CS-THG-BC044 40 2400 700 2.0-4.0 99%
CS-THG-BC045 40 2600 850 2.2-4.4 99%



Sic Rod Test Standards                                                                                                                                          

1.Standard Test Method for Determination of the Resistance of Silicon Carbide Heating Rods. 

2. Standard Test Method for Determination of the Thermal Conductivity of Silicon Carbide Heating Rods. 

3. Standard Test Method for Determination of the Dielectric Strength of Silicon Carbide Heating Rods.

4. Standard Test Method for Determination of the Maximum Temperature of Silicon Carbide Heating Rods. 

5. Standard Test Method for Determination of the Breaking Strength of Silicon Carbide Heating Rods. 

6. Standard Test Method for Determination of the Electrical Insulation Resistance of Silicon Carbide Heating Rods. 

7. Standard Test Method for Determination of the Corrosion Resistance of Silicon Carbide Heating Rods. 

8. Standard Test Method for Determination of the Thermal Shock Resistance of Silicon Carbide Heating Rods.


Packing & Shippment                                                                                                                                                       

CS’s Silicon Carbide Products are carefully handled to minimize damage during storage and transportation and to preserve the quality of our products in their original condition.                   

              



Use/Maintenance Methods                                                                                                                                               

1, silicon carbide rod texture hard and brittle, subject to severe vibration and impact easy to fracture. Therefore, extra care should be taken during transportation and handling should be handled lightly.

2. The length of the heating part of the silicon carbide rod should be equal to the width of the furnace. If the heating part extends into the furnace wall, it is easy to burn the furnace wall.

3. The length of the cold end of the silicon carbide rod should be equal to the thickness of the furnace wall plus the length of the cold end extension of the wall. Generally, the extension length of the cold end is 50 ~ 150mm, so as to cool the cold end and the connection fixture.

4. The inner diameter of the furnace through the silicon carbide rod should be 1.4 ~ 1.6 times the outer diameter of the cold end. The furnace hole is too small or the filling in the hole is too tight, and the high temperature will hinder the free expansion of the silicon carbide rod and cause the broken rod. When installed, the silicon carbide rod should be able to rotate 360 degrees freely.



Customize Requirements                                                                                                                                                

1.Silicon carbide heating rods are a popular option for many OEM applications due to their high thermal conductivity, resistance to oxidation, and excellent electrical resistance. 

2.They are also extremely durable and offer excellent thermal shock and abrasion resistance. 

3.Silicon carbide heating rods are often used in applications such as industrial furnaces, power electronics, and automotive components. 

4.These heating rods are available in a variety of shapes and sizes, and can be customized to meet the specific needs of your application. 

5.For OEM applications, our experienced engineers can provide a tailored solution to meet your exact requirements.



FAQ                                                                                                                                                                                     

1.Q: What is a silicon carbide heating rod? 

A: A silicon carbide heating rod is a type of heating element used in many industrial and commercial applications. It is made of high-grade pure silicon carbide and is used to heat air, liquids, and other substances. The rod is highly efficient and can withstand high temperatures. It is also resistant to corrosion and wear and tear. 

2.Q: What are the advantages of using a silicon carbide heating rod? 

A: The main advantage of using a silicon carbide heating rod is its superior heat transfer capabilities. It is also very durable and can withstand extreme temperatures without breaking down or becoming damaged. Additionally, it is more energy efficient than other types of heating elements and is able to provide consistent and reliable heat. 

3.Q: Are there any safety precautions that should be taken when using a silicon carbide heating rod? 

A: Yes, it is important to read and follow all safety instructions that come with the rod. It is also important to make sure that the rod is properly wired and connected to the power source. Additionally, the rod should be inspected regularly to ensure that it is in good condition and that there are no signs of wear or damage.

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