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Ndfeb Neodymium Motor Magnet Zn Coating N52 Super Strong Earth Magnets
Product Details:
| Place of Origin: | China |
| Brand Name: | Monte Bianco |
| Certification: | ISO9001, ISO14001, TS16949 |
| Model Number: | N35-N52 (M.H.SH.UH.EH.AH) |
Payment & Shipping Terms:
| Minimum Order Quantity: | 500PCS |
|---|---|
| Price: | Negotiation |
| Packaging Details: | Standard Package,Negotiable |
| Delivery Time: | 15-30 working days after received your payment |
| Payment Terms: | T/T |
| Supply Ability: | 1000k pcs/month |
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Detail Information |
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| Name: | Neodymium Super Magnets | Grade: | N52 |
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| Coating: | Zn, NiCuNi, Ni, Gold,Epoxy | Size: | Customized Size |
| Lead Time: | 10-25 Days | Place Of Origin: | Hunan,China |
| Brand Name: | Monte-Bianco | OEM: | Yes |
| Highlight: | Ndfeb Neodymium Motor Magnet,Neodymium Motor Magnet Zn Coating,N52 Super Strong Earth Magnets |
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Product Description
Ndfeb Magnetic N52 Super Strong Permanent Generator Neodymium Magnet
NdFeB magnet is a high-performance magnetic material widely used in fields such as electronics, medicine, aerospace, etc. In a theoretical experimental environment, the maximum operating temperature of neodymium magnets is 80 degrees Celsius and the Curie temperature is 310 degrees Celsius. The maximum operating temperature limit of high-performance high-temperature resistant neodymium iron boron grade is 230 degrees Celsius.
There are actually many levels of neodymium iron boron magnets
| grade | Max Operating Temperature | grade | Max Operating Temperature |
| N30-N54 | 80℃(176℉) | N30UH-N45UH | 180℃(356℉) |
| N30M-N52M | 100℃(212℉) | N30EH-N38EH | 200℃(392℉) |
| N30H-N52H | 120℃(248℉) | N32AH | 220℃(428℉) |
| N30SH-N45SH | 150℃(302℉) |
In order to give you an accurate quote, you need to provide the following details about the magnet:
1. Dimensions - (Please specify all dimensions in millimeters or inches).
Arc magnet: outer diameter x inner diameter x width x thickness
If you have magnets with special shapes, please provide us with sketches or drawings.
2. Grade requirements
3. Coating requirements
4. Magnetization direction
5. Working temperature
6. Quantity required
