How does a graphite heating element work?

Author: Morgan

Aug. 06, 2024

High Density Graphite Heating Elements | Ultra High Vacuum

Element TypeMassAirInert EnvironmentCorrosive EnvironmentHigh VacuumUltra High VacuumGraphiteLowNot suitable°CYes°C°C

High density graphite is ideal for vacuum heating elements. The graphite elements are highly inert and the material actually increases in strength as it becomes hotter. Another feature of the material is that it has a low expansion coefficient and is resistant to degrading due to constant heat cycling therefore, it has a good lifespan in this respect and a relatively fast ramp rate.

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The elements are made from blocks of high purity graphite and with the correct material selection the graphite can be machined into detailed forms for one off or low volume batches. If you can not find your requirement in the stock items below or in the gallery then please contact us to discuss you requirement further. The designs can be of a 3D nature to produce a tubular heater or flat as required. Alternatively, we can design elements or work from existing drawings.

Thermic Edge can provide Silicon Carbide coated elements or Titanium Carbide coating to further enhance these element in terms of purity and using graphite in air.

Can Graphite Be Used As A Heating Element?

Can graphite be used as a heating element?

Yes, graphite can be used as a heating element, particularly in vacuum furnaces for processes like hardening and brazing. Here's a detailed explanation:

Summary: Graphite heating elements are favored in vacuum furnaces due to their high-temperature resistance, low thermal mass, and good thermal shock resistance. They are more durable and resistant to operational mishaps compared to molybdenum elements. However, graphite is oxygen-sensitive and must be protected from exposure to air at elevated temperatures to prevent oxidation and degradation.

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Further reading:
Common Issues And Maintenance Tips For Graphite Electrodes
What is the history of Copperweld steel?

Detailed Explanation:

  1. Material Properties and Advantages:

    • High-Temperature Resistance: Graphite can withstand temperatures up to °C under vacuum or inert gas conditions, making it suitable for high-temperature applications. Its mechanical strength improves with temperature, peaking around °C.
    • Low Thermal Mass and Thermal Shock Resistance: Compared to previous graphite rod or bar elements, modern graphite heating elements have a lower thermal mass, allowing for quicker heating and cooling cycles without degradation. This is crucial for processes that require rapid temperature changes.
    • Durability and Resistance to Mishaps: Graphite elements are moderately resistant to mechanical impact and are less prone to accidental breakage or damage from braze alloy spills, making them more durable than molybdenum counterparts.
  2. Operational Considerations:

    • Oxygen Sensitivity: Graphite is highly sensitive to oxygen. Oxidation begins at around 500°C and can lead to significant mass loss and eventual structural failure if exposed to air at high temperatures. Therefore, graphite heating elements must be used in environments protected from oxygen, typically in vacuum or inert gas atmospheres.
    • Electrical Characteristics: Graphite heating elements have a lower electrical resistance when compared to other materials, which requires them to be operated at reduced voltage and higher current to maintain the desired power rating. This is due to the increased cross-sectional area of graphite elements, which allows for greater current flow.
  3. Application in Furnaces:

    • Graphite heating elements are shaped into curved strips that conform to the perimeter of the furnace hot zone, optimizing heat distribution and efficiency. They are particularly effective in vacuum furnaces where their resistance to high temperatures and thermal shock is beneficial.

Conclusion: Graphite is an excellent material for heating elements in specific industrial applications, particularly where high temperatures and rapid thermal cycling are required. Its use is facilitated by advancements in manufacturing techniques and material properties, but careful attention must be paid to its oxygen sensitivity to ensure longevity and performance.

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