Still Concerned About Overheating Issues with Traditional Magnetic Steels? Consider SDM Anti-Eddy Current Magnetic Steel ForEnhanced Thermal Performance, Cost Efficiency, And Extended Service Life! 

Please observe! This ordinary iron rod, when positioned within a coil, rapidly heats up and begins to emit smoke! Remarkably, when a human hand is placed in the same coil under identical conditions, no such reaction occurs. What's the scientific principle underlying this seemingly paradoxical phenomenon?

This is the eddy current effect. Induced currents aregenerated inside the metal object, which can cause themetal temperature to rise rapidly.This is precisely the"underlying cause" behind the overheating and evendamage of industrial equipment!

For magnetic steel, both neodymium-iron-boron and samarium-cobalt magnets are prone to experiencing eddy current effects, which can result in sustained overheating issues in application devices. However, our second-generation anti-eddy current magnetic steel demonstrates enhanced capability in suppressing eddy currents, thereby significantly reducing energy loss and mitigating overheating. By segmenting the magnet and bonding it with insulating adhesive, this innovation approach effectively minimizes eddy currents, reduces operating temperatures, and lowers overall costs. This solution represents a state-of-the-art advancement for industrial anti-eddy current applications. We invite you to contact us for further information.