跳至主要内容

How Does an Electric Induction Furnace Work?

Electric Induction Furnace


How Does an Electric Induction Furnace Work?


The electric induction furnace is a power supply device that converts the power frequency of 50HZ alternating current into an intermediate frequency (above 300HZ to 1000HZ). It converts three-phase power frequency alternating current into direct current after rectification and then converts direct current into adjustable intermediate frequency current, which is supplied by capacitors. And the medium-frequency alternating current flowing in the induction coil generates high-density magnetic force lines in the induction coil, and cuts the metal material contained in the induction coil, generating a large eddy current in the metal material.


The working frequency of an electric induction furnace  (hereinafter referred to as an intermediate frequency furnace) is between 50 and 10 Hz, and it is widely used in the smelting of non-ferrous metals and ferrous metals. Compared with other casting equipment, the medium-frequency induction furnace has the advantages of high thermal efficiency, short melting time, less burning loss of alloy elements, a wide range of melting materials, less environmental pollution, and precise control of the temperature and composition of molten metal.

So, how does an electric induction furnace work?


Working Principle of Electric Induction Furnace 

The intermediate frequency furnace is mainly composed of a power supply, an induction coil, and a crucible made of refractory materials in the induction coil. The crucible is filled with a metal charge, which is equivalent to the secondary winding of the transformer. When the induction coil is connected to the AC power supply, an alternating magnetic field is generated in the induction coil, and its magnetic field lines cut the metal charge in the crucible, and an induced electromotive force is generated in the charge. Since the charge itself forms a closed circuit, the secondary winding is characterized by only one turn and is closed. Therefore, an induced current is generated in the charge at the same time, and when the induced current passes through the charge, the charge is heated to promote its melting.

When the magnetic flux surrounded by the conductor loop changes, an induced potential will be generated in the loop. Similarly, a conductor in an alternating magnetic field will also generate an induced potential under the action of electromagnetic induction, forming an induced current (eddy current) in the conductor ), the induced current overcomes the resistance of the conductor itself to generate Joule heat, and uses this heat to heat the conductor itself to heat up and melt it to achieve various thermal processing purposes. This is the principle of intermediate frequency induction heating.


The electric induction furnace uses the intermediate-frequency power supply to establish the intermediate-frequency magnetic field so that the induced eddy current is generated inside the ferromagnetic material and heats up, so as to achieve the purpose of heating the material. The intermediate-frequency electric furnace adopts a 200-2500Hz intermediate-frequency power supply for induction heating, smelting, and heat preservation. The intermediate frequency electric furnace is mainly used for melting carbon steel, alloy steel, and special steel, and can also be used for melting and heating non-ferrous metals such as copper and aluminum. The equipment is small in size and heavy in weight. Lightweight, high efficiency, low power consumption, fast melting and heating up, easy control of furnace temperature, high production efficiency.


Multi-occasion Application of  Electric Induction Furnace 


(1) Heated forging of standard parts

(2) Melting of various metal materials

(3) Motor rotor heating fit

(4) Heating pipe expansion at the end of the steel pipe

(5) Mold diathermy

(6) Intermediate frequency quenching for shafts

(7) Weld seam preheating or tempering after welding, etc.


To make a long story short, this is an introduction to the How Does an Electric Induction Furnace Work?. I hope this article can help you have a basic understanding of this process. If you want to start a business in this field, we suggest you consult experts.

Are you looking for reliable Induction furnaces? If so, you can go to Hani Metallurgy. They also provide induction furnaces products.


Hani Metallurgy is the one-stop supplier able to design, manufacture, install and commission your melt shop and hot rolling mill plant from A to Z.


Free send inquiries to stella@hanrm.com  or inquiry99@hanmetallurgy.com if any needs.

Email: stella@hanrm.com Or stellarollingmill@gmail.com                              inquiry99@hanmetallurgy.com

Whatsapp/Wechat:+8615877652925

Website:  https://www.hanmetallurgy.com/

                https://www.hanrm.com

标签:

评论

发表评论

此博客中的热门博文

Application Range of Medium Frequency Induction Furnace

  Application Range of Medium Frequency Induction Furnace (1) Intermediate frequency induction furnace is used for forging and rolling 1. Wheel forgings, ring forgings, shaft forgings, cylinder forgings, gear forgings, stainless steel forgings, and large flanges. 2. Hot heading of standard parts and fasteners, such as heating for tempering, forging, and extrusion of high tools. 4. Quenching and tempering of bar materials (2) Intermediate frequency induction furnaces are used for smelting   Including the smelting of steel, gold, silver, copper, and aluminum, especially in the foundry industry (3) Intermediate frequency induction furnace is used for heat treatment 1. Heat treatment of various hardware tools and hand tools. Such as pliers, wrenches, screwdrivers, hammers, axes, etc. 2. High-frequency hardened crank pins, sprockets, camshafts, valves, various rocker arms, rocker shafts for various auto parts and motorcycle parts; various gears, spline shafts, transmission axles, High-frequ
发表评论
阅读全文

Troubleshooting of Medium Frequency Furnace

Troubleshooting of Medium Frequency Furnace This article introduces the faults and solutions of medium frequency furnace. 1. Fault phenomenon: large DC current, low DC voltage, and if the voltage, dull equipment sound, over-current protection. Analysis and treatment: the thyristor with one arm of the inverter bridge may be short-circuited or open-circuited, resulting in the operation of the three-arm inverter bridge. Use an oscilloscope to observe the voltage drop waveform of the thyristor on the four bridge arms of the inverter bridge. If the voltage drop waveform of the thyristor on one bridge arm is a line, the thyristor has been through; if it is a sine wave, the thyristor has not been through. Replace the through thyristor; find out the reason why the thyristor is not turned on. 2. Fault phenomenon: when the heavy load cold furnace is started, all electrical parameters and sounds are normal, but the power cannot be raised, and overcurrent protection. Analysis and
发表评论
阅读全文

Advantages and Disadvantages of Electric Arc Furnace and Induction Furnace Steelmaking

Electric Arc Furnace VS Induction Furnace Steelmaking Comparison of advantages and disadvantages of electric arc furnace and induction  furnace steelmaking 1. The induction furnace heats up quickly and has high thermal efficiency. The heat is generated inside the charge (steel liquid), so the heating is fast. In the arc furnace, the heat of the arc after the material is cleared must be transferred to the molten steel through the slag, which is indirect heating. Thermal efficiency is poor. The furnace is in the shape of a basin, and a large part of the heat of the arc is lost through the furnace cover and the furnace wall. 2. The oxidative burning loss of elements in induction furnace steelmaking is less. Because there is no ultra-high temperature action of the arc in the induction furnace steelmaking, the burning rate of the elements in the steel is low. 3. In the induction furnace steelmaking, the composition and temperature of the molten steel are relatively uniform.
发表评论
阅读全文