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CMR’s MaxField™ technology produces significantly stronger coupling forces than conventional commercially-available magnets, both in the tensile direction and in shear. More than 600% improvement has been demonstrated in the CMR lab. 

These strong Neodymium-based disk magnets shown below are 3” diameter and 1/8” thick NIB grade N42 and have a published pull-force of 40.5 lbs. When optimized using MaxField™ technology, this magnet pair has proven holding force in excess of 240 lbs. The coupling strength and force curve profile can be tailored to fit your application.

MaxField also delivers holding strength in the shear direction – many times that of conventional magnets. In the shear tests performed in CMR labs, this 3” disk magnet offered a peak resistance of more than 125 lbs force compared to a maximum of 15 lbs for conventionally magnetized material.

Employing CMR’s patented approach to magnetization, Maxfield empowers current applications and enables new product designs. Your design can benefit from the greater magnetic performance or you can achieve equivalent holding forces with much less magnetic material – reducing size, weight, and cost.

For workholding even on vertical surfaces, locking mechanisms, climbing, or magnetic lift applications, MaxField delivers capability not possible with conventional magnets.

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