PRODUCTS
High precision neodymium magnets form a wide range of shapes, sizes and grades.
CHARACTERISTICS
The characteristics of the neodymium magnets are shown in the following table of qualities. It indicates the remanence of the magnets, the coercive force, the working temperatures and the minimum and maximum resistance.
CONSULT QUALITY TABLE
Grade | Nomenclature | Remanence | Coercive force | Intrinsic coercive | Maxium energy product | Working temp | |||||
Br | bHc | Force Ihc | (BH) max | ||||||||
Neodimyum Magnets | 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. Work. temp: (ºC) | ||
NdFeB N33 anistropic | N33 | NdFeB 247/96 | 1,14 | 1,17 | 820 | 876 | 955 | - | 247 | 263 | 80 |
NdFeB N35 anistropic | N35 | NdFeB 263/96 | 1,17 | 1,20 | 860 | 900 | 955 | - | 263 | 279 | 80 |
NdFeB N38 anistropic | N38 | NdFeB 287/96 | 1,22 | 1,26 | 900 | 915 | 955 | - | 287 | 303 | 80 |
NdFeB N40 anistropic | N40 | NdFeB 303/96 | 1,26 | 1,29 | 908 | 924 | 955 | - | 303 | 318 | 80 |
NdFeB N42 anistropic | N42 | NdFeB 318/96 | 1,29 | 1,31 | 915 | 939 | 955 | - | 318 | 334 | 80 |
NdFeB N45 anistropic | N45 | NdFeB 342/96 | 1,33 | 1,36 | 924 | 955 | 955 | - | 342 | 358 | 80 |
NdFeB N48 anistropic | N48 | NdFeB 367/88 | 1,38 | 1,40 | 810 | 860 | 875 | - | 367 | 383 | 80 |
NdFeB N50 anistropic | N50 | NdFeB 383/88 | 1,40 | 1,43 | 794 | 860 | 875 | - | 383 | 398 | 80 |
NdFeB N52 anistropic | N52 | NdFeB 398/88 | 1,42 | 1,45 | 794 | 860 | 875 | - | 398 | 414 | 80 |
NdFeB N35M anistropic | N35M | NdFeB 263/111 | 1,17 | 1,20 | 868 | 900 | 1114 | - | 263 | 279 | 100 |
NdFeB N38M anistropic | N38M | NdFeB 287/111 | 1,22 | 1,26 | 900 | 939 | 1114 | - | 287 | 303 | 100 |
NdFeB N40M anistropic | N40M | NdFeB 303/111 | 1,26 | 1,29 | 924 | 955 | 1114 | - | 303 | 318 | 100 |
NdFeB N42M anistropic | N42M | NdFeB 318/111 | 1,29 | 1,32 | 955 | 987 | 1114 | - | 318 | 334 | 100 |
NdFeB N45M anistropic | N45M | NdFeB 342/111 | 1,33 | 1,35 | 971 | 1003 | 1114 | - | 342 | 358 | 100 |
NdFeB N30H anistropic | N30H | NdFeB 223/135 | 1,08 | 1,12 | 794 | 836 | 1353 | - | 223 | 239 | 120 |
NdFeB N33H anistropic | N33H | NdFeB 247/135 | 1,14 | 1,17 | 836 | 876 | 1353 | - | 247 | 263 | 120 |
NdFeB N35H anistropic | N35H | NdFeB 263/135 | 1,17 | 1,20 | 868 | 900 | 1353 | - | 263 | 279 | 120 |
NdFeB N38H anistropic | N38H | NdFeB 287/135 | 1,22 | 1,26 | 900 | 939 | 1353 | - | 287 | 303 | 120 |
NdFeB N40H anistropic | N40H | NdFeB 303/135 | 1,26 | 1,28 | 924 | 955 | 1353 | - | 303 | 318 | 120 |
NdFeB N42H anistropic | N42H | NdFeB 318/135 | 1,28 | 1,30 | 955 | 987 | 1353 | - | 318 | 334 | 120 |
NdFeB N33SH anistropic | N33SH | NdFeB 247/160 | 1,14 | 1,17 | 844 | 876 | 1595 | - | 247 | 263 | 150 |
NdFeB N35SH anistropic | N35SH | NdFeB 263/160 | 1,17 | 1,20 | 876 | 900 | 1595 | - | 263 | 279 | 150 |
NdFeB N38SH anistropic | N38SH | NdFeB 287/160 | 1,22 | 1,25 | 908 | 939 | 1595 | - | 287 | 303 | 150 |
NdFeB N40SH anistropic | N40SH | NdFeB 303/160 | 1,25 | 1,27 | 939 | 963 | 1595 | - | 303 | 318 | 150 |
NdFeB N42SH anistropic | N42SH | NdFeB 318/160 | 1,28 | 1,30 | 955 | 987 | 1595 | - | 318 | 334 | 150 |
NdFeB N33UH anistropic | N33UH | NdFeB 247/199 | 1,13 | 1,15 | 844 | 876 | 1990 | - | 247 | 263 | 180 |
NdFeB N35UH anistropic | N35UH | NdFeB 263/199 | 1,17 | 1,19 | 876 | 900 | 1990 | - | 263 | 279 | 180 |
NdFeB N38UH anistropic | N38UH | NdFeB 287/199 | 1,22 | 1,25 | 908 | 939 | 1990 | - | 287 | 303 | 180 |
NdFeB N28EH anistropic | N28EH | NdFeB 207/239 | 1,04 | 1,08 | 780 | 811 | 2388 | - | 207 | 223 | 200 |
NdFeB N30EH anistropic | N30EH | NdFeB 223/239 | 1,08 | 1,12 | 804 | 844 | 2388 | - | 223 | 239 | 200 |
NdFeB N33EH anistropic | N33EH | NdFeB 247/239 | 1,13 | 1,15 | 844 | 876 | 2388 | - | 247 | 263 | 200 |
NdFeB N30AH anistropic | N30AH | NdFeB 223/263 | 1,08 | 1,12 | 804 | 844 | 2626 | - | 223 | 239 | 220 |
NdFeB N33AH anistropic | N33AH | NdFeB 247/263 | 1,13 | 1,15 | 844 | 876 | 2626 | - | 247 | 263 | 220 |
NdFeB N34AH anistropic | N34AH | NdFeB 247/255 | 1,10 | 1,16 | 836 | 900 | 2547 | - | 247 | 271 | 220 |
NdFeB N35AH anistropic | N35AH | NdFeB 263/263 | 1,17 | 1,19 | 876 | 915 | 2626 | - | 263 | 279 | 220 |
Type of material
MetalRare Earth
Composition
Neodymium (Nd)Iron (Faith)Boron (B)
Work temperature
From 80ºC to 200ºC
Advantage
Powerful magnetsHigh coercivity and remanenceApplication in confined spaces
Advantage:
Neodymium magnets are magnetic elements with greater remanence and high coercivity. Thanks to its magnetic properties, the neodymium magnet is the most powerful on the market, being the most used in the industrial sector.
Neodymium magnets in equal size with other magnets, such as ferrite, are stronger, even in some cases, being smaller, can withstand more strength.
Work temperature:
The temperature is one of the factors to take into account in the application of the magnet.
Currently in IMA we have a wide range of magnets that cover temperatures from 80ºC to 200ºC in Neodymium, from 200ºC to 350ºC, we have the alternative of Samario magnets.
Covering:
COVERING | TYPE | THICKNESS | COLOUR | OBSERVATIONS | WORK TEMPERATURE |
Nickel | Ni+NI | 10-20 µm | Silver (bright) | Excellent resistance to the humid atmosphere | 200°C |
Ni+Cu+NI | Resistance superior to the humid atmosphere | ||||
Zinc | Zn azul | 8-20 µm | Blue-silver | Good resistance to salinity | |
Color Zn | Excellent resistance to salinity | 160°C | |||
Tin | Ni+Cu+Sn | 15-20 µm | Silver bright | Resistance superior to the humid atmosphere | 160°C |
Copper | Ni+Cu | 10-20 µm | gold | Temporary treatment | |
Epoxi | Ni+Cu+epoxy | 15-25 µm | black | Excellent resistance to weather and salinity | 120°C |
An additional protection for the neodymium magnet will ensure long-term maintenance and durability, avoiding losing its properties and possible corrosion by external or atmospheric chemical agents.
The solution is the coating of the magnet by means of a coating that can be made of different materials such as epoxy, nickel, zinc, copper and others. In this way, the magnet can withstand lower temperatures and prevent its oxidation.
APPLICATIONS:
The set of magnetic properties offered by neodymium magnets allows multiple applications, through great strength and better performance than other materials such as ferrite or alnico:
The manufacture of this magnet by sintering, allows us to achieve a wide variety of designs and shapes, to meet the needs of customers.
PRODUCTION PROCESS:
Neodymium magnets must go through different stages of the production process to be subsequently distributed and meet the needs of our customers.
In the first instance, the raw materials or rare earths are introduced in an oven where they are melted, casting the material obtained in molds and cooling it to create solid pieces. A very fine powder is then produced from the solid mass obtained above, which passes through the sintering phase where the state changes to liquid. In this process, the particles are magnetically aligned and bound together to create dense pieces. These pieces are heat treated, cut to the desired shape and size, and finally, subjected to treatments against corrosion. Finally, they magnetize and the magnet is created. That subsequently, it is tested to certify its quality.