Ceramic Magnets offer the best value when comparing cost with other type of magnets. Ceramic (Ferrite) magnets are inexpensive, moderate in magnetic strength, and they are easily magnetized in a variety of formats. Ceramic magnets offer good corrosion resistance and generally do not require a coating or plating. Consideration should be given to the grade of alloy when exposing Ceramic magnets to temperature extremes. Ceramic (Ferrite) magnets have good resistance to external demagnetization fields because of its high Intrinsic Coercive Force (Hci) . This resistance and low cost makes Ceramic magnets a popular choice for electromechanical applications.

Ceramic (Ferrite) magnets are very hard and brittle. Like all magnetic materials, ceramic should not be used as a structural element in a design. Ceramic (Ferrite) magnets are particularly prone to cracking when the application involves impacts or flexing. As with most ceramic, the ferrite magnets should not be exposed to heating or cooling rates greater than 200°F per hour.


Ceramic (Ferrite) magnets are susceptible to demagnetization when exposed to temperature extremes. There are grades which have better resistance to high and low temperatures, but several factors will dictate the performance of the Neodymium magnet. One of the most pertinent variables is the geometry of the magnet or magnetic circuit. Magnets which are thin relative to their pole cross-section (Magnetic Length / Pole Area) will demagnetize easier than magnets which are thick. Magnetic geometries utilizing backing plates, yokes, or return path structures will respond better to temperature changes. The maximum recommended operating temperatures listed on the Ceramic magnetic characteristics page does not take into account all geometry conditions. Please contact a Dura team member for design assistance when temperature extremes are involved in your application.

Ceramic (Ferrite) magnets are fairly easy to magnetize and only require a reasonable magnetizing field. Ceramic (Ferrite) magnets are usually used in conjunction with a mild steel element such as a motor housing or backing-plate. Normally it is desirable to magnetize the Ceramic (Ferrite) magnet installed on/in this element. For production level quantities an OEM will usually magnetize the installed Ceramic (Ferrite) magnets themselves. Dura Magnetics will help specify, manufacture, and source the necessary equipment.

The anisotropic nature of wet pressed Ceramic (Ferrite) magnets results in a single direction of magnetization. This direction must be observed when magnetizing and when integrating the magnet into the final assembly. Often times an indicator is used to identify a specific magnetic pole for the customer's assembly process. This indicator can be a simple paint dot or a laser engraved mark.