Neodymium magnets are part of the rare earth group, this type of permanent magnet is the strongest magnet on the market. Despite their small dimensions, neodymium magnets have the strongest magnetic properties concerning the size of the magnet.
Neodymium magnets are high-precision magnets, depending on the space in which we are going to use them and the sector in which we are going to apply them, we can find different sizes and grades. Neodymium magnets are created under a casting process, which is why we can find them in various forms.
Since the neodymium magnet is manufactured by sintering, this allows us a great variety of designs and shapes, for example: round, rectangular, square, and long...
Metal
Rare earth
Neodymium (Nd)
Iron (Fe)
Boron (B)
From 80ºC to 200ºC
Powerful magnets
High coercivity and remanence
Application in confined spaces
Neodymium magnets or powerful magnets are permanent magnets with the highest strength and high coercivity. It is the strongest magnet on the market and the most widely used in the industrial sector.
The production of neodymium magnets has a low resistance to corrosion so it has a protection or coating to ensure the maintenance and durability of the magnet over time, this coating will prevent it from losing its properties and being affected by corrosion and external chemical agents.
The coating of the neodymium magnet can be epoxy, nickel, zinc, copper, and others. Below, we can see a table of neodymium magnet qualities in which we find the remanence, the coercive force, the working temperature, and the minimum and maximum resistance of each type of neodymium quality.
Most neodymium magnets, due to their high remanence and coercivity, mentioned above, can be used in the electronics sector.
Neodymium magnets or strong magnets have a high density and a degree of magnetisation of 5,000 gauss and 52 MGOe. The higher the grade, the more magnetisation the magnet will have, as it is made of neodymium magnets, the letter in the grade is an N. Neodymium magnets have a degree of magnetisation that can vary from N27 to N52. Neodymium magnets have a higher price than ferrite magnets because of the complexity of obtaining their raw material.
All neodymium magnets are anisotropic and therefore only can magnetise in one direction. The magnetisation of square neodymium magnets is diametrically magnetised.
| Grado | Nomenclatura | Remanencia | Fuerza Coercitividad | Coercitividad Intrínsica | Energía Máxima Producto | Temperatura de Trabajo | |||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
 | Grade | Nomenclature | Remanence | #colspan# | Coercive force | #colspan# | Intrinsic coercive | #colspan# | Maxium energy product | #colspan# | Working temp | ||||
| Neodimyum Magnets | Grade | Nomenclature | Br | #colspan# | bHc | #colspan# | Fuerza Ihc | #colspan# | (BH) max | #colspan# | Temperatura de Working temp | ||||
| Neodimyum Magnets | Grade | Nomenclature | Br max (T) | Br min (T) | HcB min (kA/m) | HcB max (kA/m) | HcJ min (kA/m) | HcJ max (kA/m) | BHmax min (kJ/m³) | BHmax max (kJ/m³) | Max. Temp. trabajo: (ºC) | ||||
| NdFeB N35AH anistropic | N35AH | NdFeB 263/263 | 1,17 | 1,19 | 876 | 915 | 2626 | - | 263 | 279 | 220 | ||||
| NdFeB N34AH anistropic | N34AH | NdFeB 247/255 | 1,10 | 1,16 | 836 | 900 | 2547 | - | 247 | 271 | 220 | ||||
| NdFeB N33AH anistropic | N33AH | NdFeB 247/263 | 1,13 | 1,15 | 844 | 876 | 2626 | - | 247 | 263 | 220 | ||||
| NdFeB N30AH anistropic | N30AH | NdFeB 223/263 | 1,08 | 1,12 | 804 | 844 | 2626 | - | 223 | 239 | 220 | ||||
| NdFeB N33EH anistropic | N33EH | NdFeB 247/239 | 1,13 | 1,15 | 844 | 876 | 2388 | - | 247 | 263 | 200 | ||||
| NdFeB N30EH anistropic | N30EH | NdFeB 223/239 | 1,08 | 1,12 | 804 | 844 | 2388 | - | 223 | 239 | 200 | ||||
| NdFeB N28EH anistropic | N28EH | NdFeB 207/239 | 1,04 | 1,08 | 780 | 811 | 2388 | - | 207 | 223 | 200 | ||||
| NdFeB N38UH anistropic | N38UH | NdFeB 287/199 | 1,22 | 1,25 | 908 | 939 | 1990 | - | 287 | 303 | 180 | ||||
| NdFeB N35UH anistropic | N35UH | NdFeB 263/199 | 1,17 | 1,19 | 876 | 900 | 1990 | - | 263 | 279 | 180 | ||||
| NdFeB N33UH anistropic | N33UH | NdFeB 247/199 | 1,13 | 1,15 | 844 | 876 | 1990 | - | 247 | 263 | 180 | ||||
| NdFeB N42SH anistropic | N42SH | NdFeB 318/160 | 1,28 | 1,30 | 955 | 987 | 1595 | - | 318 | 334 | 150 | ||||
| NdFeB N40SH anistropic | N40SH | NdFeB 303/160 | 1,25 | 1,27 | 939 | 963 | 1595 | - | 303 | 318 | 150 | ||||
| NdFeB N38SH anistropic | N38SH | NdFeB 287/160 | 1,22 | 1,25 | 908 | 939 | 1595 | - | 287 | 303 | 150 | ||||
| NdFeB N35SH anistropic | N35SH | NdFeB 263/160 | 1,17 | 1,20 | 876 | 900 | 1595 | - | 263 | 279 | 150 | ||||
| NdFeB N33SH anistropic | N33SH | NdFeB 247/160 | 1,14 | 1,17 | 844 | 876 | 1595 | - | 247 | 263 | 150 | ||||
| NdFeB N42H anistropic | N42H | NdFeB 318/135 | 1,28 | 1,30 | 955 | 987 | 1353 | - | 318 | 334 | 120 | ||||
| NdFeB N40H anistropic | N40H | NdFeB 303/135 | 1,26 | 1,28 | 924 | 955 | 1353 | - | 303 | 318 | 120 | ||||
| NdFeB N38H anistropic | N38H | NdFeB 287/135 | 1,22 | 1,26 | 900 | 939 | 1353 | - | 287 | 303 | 120 | ||||
| NdFeB N35H anistropic | N35H | NdFeB 263/135 | 1,17 | 1,20 | 868 | 900 | 1353 | - | 263 | 279 | 120 | ||||
| NdFeB N33H anistropic | N33H | NdFeB 247/135 | 1,14 | 1,17 | 836 | 876 | 1353 | - | 247 | 263 | 120 | ||||
| NdFeB N30H anistropic | N30H | NdFeB 223/135 | 1,08 | 1,12 | 794 | 836 | 1353 | - | 223 | 239 | 120 | ||||
| NdFeB N45M anistropic | N45M | NdFeB 342/111 | 1,33 | 1,35 | 971 | 1003 | 1114 | - | 342 | 358 | 100 | ||||
| NdFeB N42M anistropic | N42M | NdFeB 318/111 | 1,29 | 1,32 | 955 | 987 | 1114 | - | 318 | 334 | 100 | ||||
| NdFeB N40M anistropic | N40M | NdFeB 303/111 | 1,26 | 1,29 | 924 | 955 | 1114 | - | 303 | 318 | 100 | ||||
| NdFeB N38M anistropic | N38M | NdFeB 287/111 | 1,22 | 1,26 | 900 | 939 | 1114 | - | 287 | 303 | 100 | ||||
| NdFeB N35M anistropic | N35M | NdFeB 263/111 | 1,17 | 1,20 | 868 | 900 | 1114 | - | 263 | 279 | 100 | ||||
| NdFeB N52 anistropic | N52 | NdFeB 398/88 | 1,42 | 1,45 | 794 | 860 | 875 | - | 398 | 414 | 80 | ||||
| NdFeB N50 anistropic | N50 | NdFeB 383/88 | 1,40 | 1,43 | 794 | 860 | 875 | - | 383 | 398 | 80 | ||||
| NdFeB N48 anistropic | N48 | NdFeB 367/88 | 1,38 | 1,40 | 810 | 860 | 875 | - | 367 | 383 | 80 | ||||
| NdFeB N45 anistropic | N45 | NdFeB 342/96 | 1,33 | 1,36 | 924 | 955 | 955 | - | 342 | 358 | 80 | ||||
| NdFeB N42 anistropic | N42 | NdFeB 318/96 | 1,29 | 1,31 | 915 | 939 | 955 | - | 318 | 334 | 80 | ||||
| NdFeB N40 anistropic | N40 | NdFeB 303/96 | 1,26 | 1,29 | 908 | 924 | 955 | - | 303 | 318 | 80 | ||||
| NdFeB N38 anistropic | N38 | NdFeB 287/96 | 1,22 | 1,26 | 900 | 915 | 955 | - | 287 | 303 | 80 | ||||
| NdFeB N35 anistropic | N35 | NdFeB 263/96 | 1,17 | 1,20 | 860 | 900 | 955 | - | 263 | 279 | 80 | ||||
| NdFeB N33 anistropic | N33 | NdFeB 247/96 | 1,14 | 1,17 | 820 | 876 | 955 | - | 247 | 263 | 80 | ||||
Neodymium magnets or powerful magnets are the most commonly used magnets due to their great advantages. The greatest advantage that we can find in neodymium magnets is the great magnetisation force that they possess about their size.
Neodymium magnets are the magnetic elements with the highest remanence and high coercivity. Thanks to its magnetic properties, the neodymium magnet is the most powerful magnet on the market and is the most widely used in the industrial sector.
Neodymium magnets of the same size as other magnets, such as ferrite magnets, are stronger, and in some cases, being smaller in size, they can even withstand more force.
Neodymium magnets can be treated at a maximum temperature of 80ºC. If at any time they are subjected to a temperature higher than 220ºC, the neodymium magnet will begin to lose its properties as the temperature increases.
The working temperature of the neodymium magnet is one of the factors to be taken into account in the application of the magnet.
At IMA we currently have a wide range of powerful magnets that cover temperatures from 80ºC to 220ºC in Neodymium, from 220ºC to 350ºC, we have the alternative of Samarium magnets.
| Covering | Type | THICKNESS | COLOUR | OBSERVATIONS | WORK TEMPERATURE |
|---|---|---|---|---|---|
| Níquel | Ni+NI | 10-20 µm | Silver (bright) | Excellent resistance to the humid atmosphere | 200°C |
| Níquel | Ni+Cu+NI | 10-20 µm | Resistance superior to the humid atmosphere | 200ºC | |
| Zinc | Zn azul | 8-20 µm | Blue-silver | Good resistance to salinity | 160ºC |
| Zinc | Color Zn | 8-20 µm | Blue-silver | Excellent resistance to salinity | 160ºC |
| Estaño | Ni+Cu+Sn | 15-20 µm | Silver bright | Resistance superior to the humid atmosphere | 160°C |
| Cobre | Ni+Cu | 10-20 µm | gold | Temporary treatment | |
| Epoxi | Ni+Cu+epoxy | 15-25 µm | black | Excellent resistance to weather and salinity | 120°C |
Additional protection for the neodymium magnet will ensure long-term maintenance and durability, preventing it from losing its properties and possible corrosion by external chemical or atmospheric agents.
As mentioned above, neodymium magnets are fragile due to their low corrosion resistance, so we need a coating to protect them. In addition to the protective function, it also acts as an increase in the corrosion resistance of neodymium magnets to treat them in places with a high degree of humidity. In this way, the magnet can withstand lower temperatures and prevent oxidation.
Neodymium magnets can be coated with epoxy, nickel, zinc, copper, and others. However, nickel coatings are mostly used for neodymium magnets. The nickel coating for neodymium magnets has a high performance and a high corrosion resistance.
Due to their strong magnetic properties, neodymium magnets can be used for a large number of applications, thanks to their high magnetising force.
In our daily lives, we can find neodymium magnets in door locks, making the function of allowing the opening and closing of fire doors. Also, one of the major applications that is currently booming is electric cars, more specifically in motors and generators, neodymium magnets are responsible for transforming electrical energy into mechanical energy.
Neodymium magnets go through different stages until reaching the final product:
Once we have finished following all these steps, a certificate of quality must be issued to ensure that the neodymium magnet has been manufactured correctly.
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