Product Code : RE-Nd-5N-BR
A rod magnet has a classic cylindrical design that many of us remember from school. Its diameter is generally smaller than its height, however, we also depict magnets that have the same diameter and height.
Among commercial magnet materials, the rare earth Neodymium Iron Boron magnet is the most powerful in the marketplace. Available in both sintered and bonded forms, this class of Rare Earth material possesses the highest Br, relatively high Hc and high BHmax. In many cases it is a more economical alternative to Samarium Cobalt, but is only suitable for certain applications because of itstemperature sensitivity and susceptibility to oxidation. Neodymium has an approximate energy product range of 10-53 MGOe.
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Product Information
A rod magnet has a classic cylindrical design that many of us remember from school. Its diameter is generally smaller than its height, however, we also depict magnets that have the same diameter and height.
Among commercial magnet materials, the rare earth Neodymium Iron Boron magnet is the most powerful in the marketplace. Available in both sintered and bonded forms, this class of Rare Earth material possesses the highest Br, relatively high Hc and high BHmax. In many cases it is a more economical alternative to Samarium Cobalt, but is only suitable for certain applications because of itstemperature sensitivity and susceptibility to oxidation. Neodymium has an approximate energy product range of 10-53 MGOe.
Neodymium Rod Synonyms
GF85947519, GF68875903, GF42944744, GF09487581, GF24551007, 40294, 44051
Neodymium Rod Specification
Dimensions
Per your request or drawing
We can customized as required
Properties (Theoretical)
Molecular Weight | 144.24 |
Appearance | Silvery |
Melting Point | 1024 °C |
Boiling Point | 3100 °C |
Density | 6800 kg/m3 |
Solubility in H2O | N/A |
Electrical Resistivity | 64.0 microhm-cm @ 25 °C |
Electronegativity | 1.2 Paulings |
Heat of Fusion | 1.70 Cal/gm mole |
Heat of Vaporization | 69 K-Cal/gm atom at 3068 °C |
Poisson's Ratio | ( form) 0.281 |
Specific Heat | 0.049 Cal/g/K @ 25 °C |
Tensile Strength | N/A |
Thermal Conductivity | 0.165 W/cm/K @ 298.2 K |
Thermal Expansion | 6.89 g·cm3 |
Vickers Hardness | 343 MPa |
Young's Modulus | (form) 41.4 GPa |
The most appropriate temperature for Neodymium Magnets
The performance of a neodymium magnet is affected by temperature. As the temperature gets colder, neodymium magnets get stronger, and they even operate better at lower temperatures. Neodymium magnets are said to be able to function well in temperatures as low as -130 ° C. It is also possible for certain grades of neodymium magnets to be exposed to very high temperatures before they begin to change their properties and, either temporarily or permanently, lose their magnetism.
Neodymium Magnets decrease in magnetic strength by 0.11% for every degree celsius of temperature increase. If the maximum operating temperature is not exceeded, this small loss can be fully recovered on cooling. In the case of exceeding it, the small loss will not be recovered on cooling. The magnetic field output of Neodymium magnets increases with temperature up to 80° C and after that point, they begin to lose their effectiveness. There are different levels of Neodymium 35 temperature rating (M, H, SH, UH, EH, or AH). Higher temperature versions (NxxM, NxxH, NxxSH, NxxUH, NxxEH, NxxVH/AH) are rated from up to +100⁰ C to a maximum of up to +230 ⁰ C. The magnetic performance will continue to decline after successive hot-cold cycles. Without careful design of the magnetic circuit, you should not use these magnets in temperatures above 130° C (240° F).
The permanent demagnetisation fields and radiation can also affect neodymium magnets, so the magnet must always be fully understood according to the environment in which it will be used.
Neodymium Magnets require surface treatments
In humid conditions, magnets without a surface coating (such as plating) may rust. Therefore, all Neodymium Magnets or Rare Earth magnets should have some form of protective coating to minimise and ideally prevent corrosion. Uncoated is not advised. The default / standard protective coating is Ni−Cu−Ni plating. Other coatings/finishes exist (over 40 finishes are currently available). Where maximum corrosion resistance is required for NdFeB, consider using the increased corrosion resistance range of NdFeB alloys.
Advantages & Disadvantages of Neodymium Magnets (NdFeB)
Advantages
· Maximum performance relative to size. Ideal for restricted space or compact applications.
· Can be used in extremely cold conditions (e.g. in liquid nitrogen).
· Standard Neodymium NdFeB Magnet is rated to +80 degrees C (176F) maximum. Can be rated to +100 (212F), +120 (248F), +150 (302F), +180 (356F), +200 (392F) and +220/230 degrees C (428/446F) with higher Hci versions.
· High coercivity (Hci) to resist demagnetisation.
· NxxT and L-NxxT alloys have better corrosion resistance than standard NdFeB but still needs coating.
Disadvantages
· Requires a protective coating to prevent the iron in the alloy from corroding (rusting).
· NxxT and L-NxxT alloys are much more expensive and will still show signs of corrosion.
· Higher temperature versions contain more Dy element increasing their cost.
· Nd and Dy prices affect the production cost.
Above 150-180 deg C (302-356F), SmCo may be better
Features include:
• Neodymium magnets are the most powerful commerically produced magnets.
• Neodymium magnets are hard and brittle and may chip or break if dropped.
• Disc Neodymium magnets are magnetized through the thickness or diametrically magnetized.
• Uncoated neodymium magnets may corrode in humid conditions
• Operating temperatures vary among material grades.Usually ranges from 80°C to 220°C.
• Keep cautious when handling magnetized neodymium magnets, their exceptional magnetic force may cause them to attract to metal (or to each other) so strongly that fingers in their path could prove painful.
Typical Applications for Rare Earth Neodymium Magnets
Neodymium magnets are available in several different sizes and variations, including neodymium bar magnets or neodymium blocks, neodymium disc magnets, neodymium pot magnets, neodymium ring magnets. They are also available with attachments such as hooks or threaded attachments. They are also available with rubber coatings or adhesive backings. This gives a vast choice to suit a variety of applications including:
· Neodymium Magnets for Motor and Generator drives including, wind and tidal turbines
· Meters
· Neodymium Magnet Speaker, Audio Equipment - headphones, microphones
· Computer Disc Drives and Printers
· Automotive (clamps, sensors, alternators, interior trims)
· Precision Magnets for Aerospace - sensors, navigation equipment
· Fine particle Magnetic Separation (magnetic rods, magnetic grids, etc) – 10-12kG (22-26lbs) systems
· High-performance magnetic clamps and pot magnets
· Electronics - switches, relays, sensors
· Lifting Heavy Ferrous materials - see neodymium magnetic lifters
Applications of Neodymium Rod
This type of permanent magnet can be used for different applications such as: metal separation, magnetic therapy, brochure closures, school scienceexperiments, jewellery-making, packaging, book-binding and POS displays, as well as engineering applications.
With a diameter greater than the thickness, our rare earth disc magnets provide a very strong magnetic field and high coercivity. Excellent value for money ensures that Neodymium discs are among the most widely used commercially available magnets.
Packing of Neodymium Rod
Standard Packing:
Typical bulk packaging includes palletized plastic 5 gallon/25 kg. pails, fiber and steel drums to 1 ton super sacks in full container (FCL) or truck load (T/L) quantities. Research and sample quantities and hygroscopic, oxidizing or other air sensitive materials may be packaged under argon or vacuum. Solutions are packaged in polypropylene, plastic or glass jars up to palletized 440 gallon liquid totes Special package is available on request.
ATTs’ Neodymium Rod is carefully handled to minimize damage during storage and transportation and to preserve the quality of our products in their original condition.
Chemical Identifiers
Linear Formula | Nd |
CAS # | 7440-00-8 |
MDL Number | MFCD00011130 |
EC No. | 231-109-3 |
Beilstein/Reaxys No. | N/A |
Pubchem CID | 23934 |
SMILES | [Nd] |
InchI Identifier | InChI=1S/Nd |
InchI Key | QEFYFXOXNSNQGX-UHFFFAOYSA-N |