Induction
heating is unique. As compered the most conventional heating processes use for
pre-heating and stress for leaving. It is non-contact method of quickly heating
metal by inducting current in the part. Therefore it does not rely on heating
element to touch the part to conduct heat or flame to the part.
Induction
heating conventional uses are many, for example : brazing, melting, forging,
super heating, etc. now induction heating being successful use in industrial
and construction application involving welding, such as pre-heating before
welding and stress for leaving after welding.
So,
what happened in induction heating? When the electrical current flows through
conductor, it produces a magnetic field around the conductor.
By
alternating the current, the magnetic field is reversed. Placing conducting
material like metal, in the alternating magnetic field, causes the material
heat up. Localize electrical current called eddy currents are created within
the metal. The metal has a certain electrical resistance. The circulating eddy
currents flow against the metal resistance, causing it heat up.
Another
contributing factor to heating is hysteresis. This is crisis due to the material
resistance to the changing magnetic field. Eddy current heating provides
significantly more heating than hysteresis.
Induction
Heating for Pre-heating or Stress for leaving
Induction
heating uses conductive cable which can be rope around or placed on a metal
part to be heated. Alternating current passes through the cable, creating a
magnetic field in the part. They reversing magnetic field create eddy currents
and hysteresis and then create heat.
The
part becomes the heating elements and the highest temperature is generated and control
in the part rather than heating device. This makes induction heating really
efficient.
Some benefits of induction heating:
- Temperature uniformity
- Automatic temperature control
- Reduce cycle time (quick time to temperature)
- Lower consumable cost( not using fuel gas )
- Simple and using friendly
- Safety
- Flexibility (pre-heat, stress for leaving, etc)
- Power efficiency
- Reliability (no burned connectors or wires or open heating pads)
Dian Ayu Aprianti (112110091)
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Thanks for letting me know that induction heaters work by using alternating currents that go through conductive cables in order to create a magnetic field. I have one at my house, and I had no idea how it worked. I was just glad that it made the house warm, except now it doesn't. Yesterday, it just stopped working, and I'm really going to need it for the winter. I'll have to find someone who can repair it. http://lonestarinduction.com/
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