Tuesday, 15 May 2018

Induction Hardening – Process, History and Advantages


Induction hardening faridabad
Induction Hardening is a type of heat treatment in which metal parts are heated by electromagnetic induction and then quenched. It is also a type of case hardening and can be used for many steel and steel alloys to improve surface layer properties such as fatigue resistance and hardness.

Induction Hardening Process
Induction Hardening can be split into two steps. The first one is induction heating, in which electrically conducting metals are heated with an electromagnet. The quenching phase follows directly after to alter the surface structure of the material.

Induction Heating
Materials such as steel are typically placed inside a water cooled copper coil where they are subject to an alternating magnetic field. They undergo electromagnetic induction by means of an electromagnet and an electronic oscillator. This oscillator sends alternating currents through the electromagnet, causing alternating magnetic fields that penetrate the material. The results are eddy currents (loops of electrical current) which heat the object within the coil. Induction hardening is a form of surface hardening in which the depth can be up to 8mm. The deeper the currents penetrate, the higher the frequency of the alternating magnetic fields have to be Case Hardening in Faridabad.

Steels that have a ferromagnetic structure (which is inherited from the iron) can also be heated by magnetic hysteresis losses. Magnetic hysteresis losses produce heat by re-aligning magnetic domains, although it depends on the frequency of the currents, the penetration depth and the properties of the material (size, density, alloys) how much heat can be generated.

Quenching
Directly after the induction heating process, the object has to be quenched, meaning that it has the be cooled down extremely quickly. To do that, the workpiece is typically placed in a tank of oil or water, although sometimes cold air is used. Quenching ensures that only the surface is hardened and that heat doesn’t spread into the core of the material, avoiding phase transformations from arising. Furthermore, the rapid cooling down creates a martensitic or ferritic-martensitic structure on the surface layer. These structure display higher tensile strength and low initial yielding stress than a purely ferritic structure.
Induction hardening faridabad

History
Induction heating was first developed and introduced in its earliest form in 1831 by Michael Faraday. He could prove that an electromotive force could be created by winding two copper coils around a magnetic core while turning one of the windings on and off which affected the other one. These currents were created by alternating magnetic fields around the magnetic core. Because neither of the coils touch, the electromotive force is induced into the second coil, the process was called induction heating.

Properties that improve due to induction hardening
Deeper Case Depth: Induction hardening can penetrate the surface of up to 0.31 inches (8 mm). This depends on the process of induction hardening and the material’s properties.

Finer Grain Size: As mentioned above, induction hardening changes the grain size on the surface of materials. A finer grain size increases hardness because the surface is harder to penetrate.

Higher wear and fatigue resistance: Induction hardening improves wear resistance because the structure of the surface layer is altered. Ferritic steels obtain a martensitic structure which provides improved wear resistance.

Induction hardening in Faridabad is a good alternative to boronizing, which is a type of surface hardening BorTec specializes in. Induction hardening is recommended when only hardness should be improved. If you’re looking for a treatment that can also improve adhesion, resistance against abrasive wear, good stability at high temperatures and resistance against acids, the certified BoroCoat treatment is the better choice. However, it depends on the area of application and other factors which hardening technique is more suitable for your needs.

No comments:

Post a Comment