Heating Technology for Part Hardening and Tempering Process?
Heating Technology for Part Hardening and Tempering Process?
In the manufacturing process, parts usually need to be heated to get adjusted to the conditions of work. After the treatment, the microstructure hardness, hardness, tensile force, yield strength will greatly increased. Thus, heat treatment is a critical step in the processing of parts. Heat treatment can includes hardening, tempering, annealing, normalizing etc, which is used to modify the manufacturing process as per different specifications for working conditions. In this article, we will discuss what equipment is suitable to temper and harden the process. As compared to the conventional method Induction heating technology provides many advantages for the heat treatment process of hardening and tempering. Induction heating is a great option for manufacturing processes because it is a fast and energy-efficient method of heating conductive materials. Common systems comprise the inductor that includes a copper coil as well as a cooler or cooling unit. The current runs through the coil, creating an electromagnetic magnetic field that alternating. When the conductive parts are placed within the coil, there will be an the electric current that flows through. The electric current will be combined with the inherent resistance of the conductive piece to create heat. What's the advantage of induction heating in the process of hardening and tempering steel? 1.FlexibilityInduction heating system doesn't need preheating time and show-down time for the machines, then you can start or stop the machine as per your production need. Most of the time materials that are of different dimensions and grades must be tempered with a different tempering temperature. But conventional machines are hard to achieve temperature adjustment. If the bars or tubes are heated to a high temperature for long periods then the steel will begin decarbonizing. On the contrary, induction heating systems allow for an adjustment in temperature that is controlled by the power output. This is very important to achieve different grades of need of different grade tubes. For more detail please visit:- https://evsinsider.in/ https://thitruongdatnen24h.com https://trananhland.com avis test de produits fr 2.Uniformity in both hardness and structure The microstructure of steel will undergo changing characteristics as a result of the process of heat treatment: Ferrite-Austenite- Martensite, Sorbide. However, only the steel will experience homogeneous heating and cooling and then the structure is transformed homogeneously. If the structure is not transform completely, then hardness, toughness and tensile strength are affected which means that the material will not be able to fulfill the specific requirements for the purpose it was intended to. In the induction heating process, the entire temperature of heating will be controlled and monitored and the structure will transform well and stay in a its stable state. 3.Very low maintenance Compare the traditional furnaces, induction heating furnace only need to check the condition of the heating coil each year. Other parts only need to be checked on a regular basis.

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