Neodymium Magnet Bar
Features:
1, Suitable for high volume production of a wide variety of shape and size ranges
2, Precise dimensional control is achieved in both processed and usually the component does not require further machining
3, High performance, high coercive force, high maximum energy and are easily formed into various of sizes and shapes
4, They have been widely used in commercially available fields
The majorities of NdFeB magnets are anisotropic and can only be magnetized in the orientation direction
5, Surface treatments are needed and can be done according to customers' requirements to protect magnet
6, All trademarks shown here are for reference purposes only. They are the property of their respective owners, and we are not authorized to sell items bearing such trademarks
There are 4 different ways in which you can identify the poles of Neodymium magnets
1. The simplest way is to use another Neodymium magnet that is already marked. By virtue of magnetic properties, the North Pole of the marked magnet will attract the South Pole of the unmarked Neodymium magnet and repel the North Pole.
2. Take a compass and bring it close to the Neodymium magnet you want to mark. The North Pole of the compass will be attracted to the
3. South Pole of the Neodymium magnet and repelled by the North Pole
Take a magnet and dangle it by a string so that it is freely rotating. The North Pole of the magnet will be the one that points north
4. Use our magnetic pole detector, which is also in the range of our products, to identy the pole of magnet easily...
For more detail info, please feel free to visit our website or inquire us at any of your convenience..
| Grade |
Max. Operational temperature |
| N35, N38, N40, N42, N45, N48, N50, N52 |
80° c |
| N33SH, N35SH, N38SH, N40SH, N42SH |
150° c |
| N28UH, N30UH, N33UH, N35UH, N38UH |
Up to 180° c |
| N28EH, N30EH, N33EH, N35EH |
Up to 200° c |
| N30AH, N33AH, N35AH |
Up to 230° c |
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