Induction Heating Of Graphite

It’s time you knew all about Induction Heating Of Graphite. First of all, Graphite metal is greasy smooth black texture. It is a form of chemical carbon element. Industrial graphite is used in many products.

For example, in the industry, they strengthen it with clay to produce pencils that we call to lead. At some point, people would call graphite the wrong name of lead, but the lead is denser than graphite. The name graphite is derived from a Greek word whose meaning is written. German geologist Abraham Werner called this name in 1789.

Uses of Graphite:Induction Heating Of Graphite-1

  • Generally, graphite has multiple uses in addition to its use in pencils.
  • It is conductive, and it is difficult to burn. For these reasons, the electrodes are made of graphite that works under conditions that destroy metal electrodes.
  • Graphite is conductive to heat and does not combine with any other chemical elements, except at very high temperatures. Therefore, many of the jars are made of graphite.
  • Graphite is not easily dissolved, so it is made of reservoirs where strong acids are stored. Also, it is used in the heart of some nuclear reactors.
  • Graphite calms down the speed of neutrons in the reactors to keep it working.
  • The graphite slide makes it a good lubricant for wall clocks, door locks, and other machines with small parts.
  • Moreover, graphite is the main raw material in synthetic diamonds.

The Environment for Induction Heating of Graphite:

Basically, induction heating of carbon graphite electrodes for destructive oxidation parts to address embedded contaminants:Induction Heating Of Graphite-2

  • Physical anodes 2.5 × 2.5 × 4 (63 × 63 × 102) h x w x d in (mm)
  • The temperature of 1900 degrees Fahrenheit is 1000 degrees Celsius
  • Frequency 54 kHz
  • Power Equipment of 70kW Induction Heating System, Customized Multiturn helical coil, Worried Cap 4 1.0μF
  • Then, the air drainage system operation is used to provide fresh air (~ 25 f3 / hr) part of the heat cycle and provide work swirls to maximum contact with the anode surface.
  • The anode is placed inside the induction coil heating and heating to a temperature of 1000 ° C. After two and a half hours, the anode
  • Burns around 0.375-inch diameter.
  • The pyrometer/controller are used to provide a constant temperature as the anode reduces in size.
  • Finally, the results/benefits of “induction” heating allow this process to be highly effective and controllable.


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