you can perform Well, today our topic is about Induction Heating Of Austenite Stainless Steel. Basically, Austenite is a type of iron found in the form of a solid solution. Generally, it is composed of dissolved carbon in the central cube of the gamma iron.
The highest carbon solubility in the Austenite is 2.0% at 1148 ° C, which is in the iron and carbon diagram.
So, you can perform the conversion of the Austenite by heating iron (or iron of metal or steel origin) to the temperature at which the crystalline structure turns from ferrite to austenite.
However, in the incomplete austenitization, you’ll have undissolved carbides blocks decomposed into the crystalline structure.
In some carbon iron alloys, the formation of carbides is possible during the conversion of the Austenite during heating. The common term for this is the conversion of the two-phase Austenization.
- Tensile strength 100 kg / mm 2
- The elongation is 10% (at a standard length of 50 mm).
- Corrosion Resistant.
- It has high elasticity.
- High electrical resistance.
Induction Heating Of Austenite Stainless Steel:
Well, you can heat austenitic steel by induction using cool air and low-density energy. In the case of induction heating of austenite stainless steel in a water environment, you should use high-intensity energy.
Basically, you can perform induction heating if the plate’s thickness is between 0.1 – 0.5 mm. Obviously, you can get the best induction heating in a large flow of magnetic field.
If you’re using a coil design, you can heat austenite steel by induction if you’re extremely careful.
Applications of Austenitic stainless steel:
This type of stainless steel is more susceptible to be welded than any other type of stainless steel. So, it is used in many industrial applications.
We find it in the power plants in the dairy equipment and also the chemical manufacturer. Despite the general weldability, Be aware of heat-affected area welding and hot-melt welding.
It can be divided rather loosely into three groups: common chromium-nickel (300 series), manganese-chromium-nickel-nitrogen (200 series) and specialty alloys.