Permanent magnets are utilized in a wide range of commercial and industrial applications, many of which require these magnets to function in a highly stable and consistent manner. Variables such as temperature, and demagnetizing fields will impact performance, but these effects can be mitigated through stabilization or calibration. Our new whitepaper, Permanent Magnet Stabilizing and Calibrating, explains how these techniques work, why they are sometimes necessary, and what to expect as a result.
You’ll discover how stabilization can be used as a pre-treatment against temperature change in the application, as well as to combat the presence of demagnetizing fields. Different methods may be used depending on your specific needs.
Calibration addresses variance in magnetic (flux) output that can occur during permanent magnet production. The treatment process creates a consistently tighter tolerance range than normally seen, and can even reduce out-of-spec-high magnets to an acceptable flux output.
The automated manufacture of any product inevitably results in a range of quality. Stabilization and calibration provide a means to create permanent magnets of greater consistency and tighter performance variation. Adams can help you determine and implement the best stabilization or calibration method to ensure the resulting product characteristics meet your requirements. Contact us to get started.