menu
Where Can You Find Free Electromagnetic stirrers Resources?
Where Can You Find Free Electromagnetic stirrers Resources?
We employ modern fluid-dynamic computing software to compute and depict the movements caused in liquid steel by the varying magnetic field created by the stirrer's electric coil during the design process.

Where Can You Find Free Electromagnetic stirrers Resources?

Electromagnetic stirrers (EMS) are widely employed in the iron and steel industry, including both turning process and in the steel mixing process in the ladle. The employment of stirrers improves steel quality and production, and because to their great metallurgical flexibility, they are ideal for the manufacturing of steels with varying carbon content.

The chemical makeup, technique, and movement of the liquid steel from the inside of the casting line all influence the quality of the treated coating and the interior crystalline structure of the steel. Volume pressures are generated the inside of the liquid steel by the existence of a changing magnetic field, which impresses a main rotating motion and supplementary movements along the casting line.

The mixing caused by the electromagnetic stirrers improves heat exchange throughout the casting line, making the Electromagnetic stirrer software more homogenous and promoting the development of crystalline zones. We are able to create and construct stirring systems depending on the individual demands of the client thanks to many years of technical and operational expertise and highly specialised know-how.

We employ modern fluid-dynamic computing software to compute and depict the movements caused in liquid steel by the varying magnetic field created by the stirrer's electric coil during the design process.

The sink roll analysis programme provides for the rapid and exact solution of complicated issues involving conductive fluids submerged in changeable magnetic fields, resulting in the optimization of the stirrer design phase. The electrical properties of the stirrer, such as winding resistance and phasing characteristic impedance, as well as the thermal behaviour of the windings, are calculated using finite element simulation software. As a result, technology design is an essential tool for creating and testing stirrers using statistical models before they would be put into production.