Stainless Steel Magnetic Separator MS

The heart of the Magnetic Separator is Magnetic Separator generation system, typically composed of permanent magnets or electromagnets.
The Magnetic Separator strength is a critical parameter, influencing the separation efficiency and the type of particles that can be captured.
Magnetic Core:

The core constitutes the structure housing the magnetic elements (permanent magnets or electromagnets). Depending on the design, the core may consist of magnetic tubes, grids, plates, or drums.

Gauss Value (G): The magnetic field strength is measured in Gauss (G) or Tesla (T), and it determines the separator's ability to attract and hold magnetic particles.The Gauss value is an indicator of the magnetic density at a specific point within the separator.

Magnetic Flux Density (B): Magnetic flux density, expressed in Tesla (T), represents the total magnetic field strength within a given area. A higher magnetic flux density enhances the separator's efficiency in capturing ferrous particles.

Material Flow Rate:

The rate at which the mixture flows through the separator significantly impacts separation effectiveness. Optimizing the material flow rate ensures proper contact between magnetic particles and the magnetic field.

Capture Efficiency:

Capture efficiency indicates the proportion of magnetic particles that are successfully captured by the separator. Factors influencing capture efficiency include magnetic field strength, particle size, and flow characteristics.

Remanence (Br) and Coercivity (Hc):

Remanence (Br) represents the residual magnetization of the magnetic material after the external field is removed. Coercivity (Hc) indicates the magnetic field strength required to demagnetize the material. These parameters influence the magnetic properties of the separator's core.

Material Contact Surface: The surface area and configuration of the magnetic elements play a role in determining the effective contact between the magnetic field and the mixture. Design considerations include spacing, arrangement, and coverage of the magnetic components.
Cleaning Mechanisms: