Let us take care of your production needs !
Reiner hochwertiger industrieller Neodym-Magnet
Industrial neodymium magnets, also known as neodymium iron boron magnets, are high-performance permanent magnet materials with extremely high magnetic energy product and coercive force. Its strong magnetic force makes it an ideal choice for many industrial applications, whether it is motor manufacturing, electronic equipment, or medical equipment, it is inseparable from its support. These magnets not only have high strength, but also have good stability and can maintain excellent magnetic properties in various environments. At the same time, due to their high performance and small size, neodymium magnets can also help achieve miniaturization and lightweight of equipment. However, it also has the disadvantage of being easily oxidized, so surface treatment is often required to enhance its durability in actual use.
Keyword:
Reiner hochwertiger industrieller Neodym-Magnet
Classification:
Pure Permanent Magnet
Hot Products
| Grade | Remanenz Induktion | Koerzitivfeldstärke | Intrinsische Koerzitivfeldstärke | Maximal Energie Produkt | Arbeitstemperatur | Dichte | |||||||||||||||||
| Br | HcB | HcJ | (BH)max | Tw | ρ | ||||||||||||||||||
| T | KGs | KA/m | KOe | KA/m | KOe | KJ/m³ | MGOe | ℃ | g/cm3 | ||||||||||||||
| Allgemeiner Prozess | |||||||||||||||||||||||
| N38 | 1.23-1.30 | 12.3-13.0 | ≥876 | ≥11 | ≥955 | ≥12 | 287-318 | 36-40 | ≤80 | ≥7.5 | |||||||||||||
| N40 | 1.26-1.32 | 12.6-13.2 | ≥876 | ≥11 | ≥955 | ≥12 | 302-334 | 38-42 | ≤80 | ≥7.5 | |||||||||||||
| N42 | 1.29-1.35 | 12.9-13.5 | ≥876 | ≥11 | ≥955 | ≥12 | 318-350 | 40-44 | ≤80 | ≥7.5 | |||||||||||||
| N45 | 1.32-1.38 | 13.2-13.8 | ≥876 | ≥11 | ≥955 | ≥12 | 334-366 | 42-46 | ≤80 | ≥7.5 | |||||||||||||
| N48 | 1.37-1.43 | 13.7-14.3 | ≥876 | ≥11 | ≥955 | ≥12 | 358-390 | 45-49 | ≤80 | ≥7.5 | |||||||||||||
| N50 | 1.40-1.45 | 14.0-14.5 | ≥876 | ≥11 | ≥955 | ≥12 | 374-406 | 47-51 | ≤80 | ≥7.5 | |||||||||||||
| N52 | 1.42-1.48 | 14.2-14.8 | ≥836 | ≥10.5 | ≥876 | ≥11 | 390-422 | 49-53 | ≤80 | ≥7.5 | |||||||||||||
| N55 | 1.46-1.51 | 14.6-15.1 | ≥860 | ≥10.8 | ≥955 | ≥12 | 406-438 | 51-55 | ≤80 | ≥7.5 | |||||||||||||
| N38M | 1.23-1.30 | 12.3-13.0 | ≥915 | ≥11.5 | ≥1114 | ≥14 | 287-318 | 36-40 | ≤100 | ≥7.5 | |||||||||||||
| N40M | 1.26-1.32 | 12.6-13.2 | ≥939 | ≥11.8 | ≥1114 | ≥14 | 302-334 | 38-42 | ≤100 | ≥7.5 | |||||||||||||
| N42M | 1.29-1.35 | 12.9-13.5 | ≥963 | ≥12.1 | ≥1114 | ≥14 | 318-350 | 40-44 | ≤100 | ≥7.5 | |||||||||||||
| N45M | 1.32-1.38 | 13.2-13.8 | ≥987 | ≥12.4 | ≥1114 | ≥14 | 334-366 | 42-46 | ≤100 | ≥7.5 | |||||||||||||
| N48M | 1.37-1.43 | 13.7-14.3 | ≥1019 | ≥12.8 | ≥1114 | ≥14 | 358-390 | 45-49 | ≤100 | ≥7.5 | |||||||||||||
| N50M | 1.40-1.45 | 14.0-14.5 | ≥1043 | ≥13.1 | ≥1114 | ≥14 | 374-406 | 47-51 | ≤100 | ≥7.5 | |||||||||||||
| N52M | 1.42-1.48 | 14.2-14.8 | ≥1059 | ≥13.3 | ≥1114 | ≥14 | 390-422 | 49-53 | ≤100 | ≥7.5 | |||||||||||||
| N54M | 1.46-1.51 | 14.6-15.1 | ≥995 | ≥12.5 | ≥1035 | ≥13 | 406-438 | 51-55 | ≤100 | ≥7.5 | |||||||||||||
| N35H | 1.17-1.24 | 11.7-12.4 | ≥876 | ≥11.0 | ≥1353 | ≥17 | 263-295 | 33-37 | ≤120 | ≥7.5 | |||||||||||||
| N38H | 1.23-1.30 | 12.3-13.0 | ≥915 | ≥11.5 | ≥1353 | ≥17 | 286-318 | 36-40 | ≤120 | ≥7.5 | |||||||||||||
| N40H | 1.26-1.32 | 12.6-13.2 | ≥939 | ≥11.8 | ≥1353 | ≥17 | 302-334 | 38-42 | ≤120 | ≥7.5 | |||||||||||||
| N42H | 1.29-1.35 | 12.9-13.5 | ≥963 | ≥12.1 | ≥1353 | ≥17 | 318-350 | 40-44 | ≤120 | ≥7.5 | |||||||||||||
| N45H | 1.32-1.38 | 13.2-13.8 | ≥987 | ≥12.4 | ≥1353 | ≥17 | 334-366 | 42-46 | ≤120 | ≥7.5 | |||||||||||||
| N48H | 1.37-1.43 | 13.7-14.3 | ≥1011 | ≥12.7 | ≥1353 | ≥17 | 358-390 | 45-49 | ≤120 | ≥7.5 | |||||||||||||
| N50H | 1.40-1.45 | 14.0-14.5 | ≥1027 | ≥12.9 | ≥1353 | ≥17 | 374-406 | 47-51 | ≤120 | ≥7.5 | |||||||||||||
| N52H | 1.42-1.48 | 14.2-14.8 | ≥1059 | ≥13.3 | ≥1353 | ≥17 | 390-422 | 49-53 | ≤120 | ≥7.5 | |||||||||||||
| N33SH | 1.14-1.21 | 11.4-12.1 | ≥852 | ≥10.7 | ≥1592 | ≥20 | 247-279 | 31-35 | ≤150 | ≥7.5 | |||||||||||||
| N35SH | 1.17-1.24 | 11.7-12.4 | ≥876 | ≥11.0 | ≥1592 | ≥20 | 263-295 | 33-37 | ≤150 | ≥7.5 | |||||||||||||
| N38SH | 1.23-1.29 | 12.3-12.9 | ≥915 | ≥11.5 | ≥1592 | ≥20 | 287-318 | 36-40 | ≤150 | ≥7.5 | |||||||||||||
| N40SH | 1.26-1.32 | 12.6-13.2 | ≥939 | ≥11.8 | ≥1592 | ≥20 | 302-334 | 38-42 | ≤150 | ≥7.5 | |||||||||||||
| N42SH | 1.29-1.35 | 12.9-13.5 | ≥963 | ≥12.1 | ≥1592 | ≥20 | 318-350 | 40-44 | ≤150 | ≥7.5 | |||||||||||||
| N45SH | 1.32-1.38 | 13.2-13.8 | ≥987 | ≥12.4 | ≥1592 | ≥20 | 334-366 | 42-46 | ≤150 | ≥7.5 | |||||||||||||
| to be conRnued | |||||||||||||||||||||||
|
Grade |
Remanenz Induktion |
Koerzitivfeldstärke |
Intrinsische Koerzitivfeldstärke |
Maximal Energie Produkt |
Arbeitstemperatur |
Dichte |
||||
|
Br |
HcB |
HcJ |
(BH)max |
Tw |
ρ |
|||||
|
Grade |
T |
KGs |
KA/m |
KOe |
KA/m |
KOe |
KJ/m³ |
MGOe |
℃ |
g/cm3 |
|
N48SH |
1.37-1.43 |
13.7-14.3 |
≥1011 |
≥12.7 |
≥1592 |
≥20 |
358-390 |
45-49 |
≤150 |
≥7.5 |
|
N50SH |
1.40-1.45 |
14.0-14.5 |
≥1027 |
≥12.9 |
≥1592 |
≥20 |
374-406 |
47-51 |
≤150 |
≥7.5 |
|
N52SH |
1.42-1.48 |
14.2-14.8 |
≥1035 |
≥13 |
≥1512 |
≥19 |
390-422 |
49-53 |
≤150 |
≥7.5 |
|
N30UH |
1.08-1.13 |
10.8-11.3 |
≥796 |
≥10.0 |
≥1990 |
≥25 |
223-255 |
28-31 |
≤180 |
≥7.5 |
|
N33UH |
1.14-1.18 |
11.4-11.8 |
≥852 |
≥10.5 |
≥1990 |
≥25 |
247-279 |
31-35 |
≤180 |
≥7.5 |
|
N35UH |
1.17-1.24 |
11.7-12.4 |
≥876 |
≥11.0 |
≥1990 |
≥25 |
263-295 |
33-37 |
≤180 |
≥7.5 |
|
N38UH |
1.23-1.29 |
12.3-12.9 |
≥915 |
≥11.5 |
≥1990 |
≥25 |
287-318 |
36-40 |
≤180 |
≥7.5 |
|
N40UH |
1.26-1.32 |
12.6-13.2 |
≥939 |
≥11.8 |
≥1990 |
≥25 |
302-334 |
38-42 |
≤180 |
≥7.5 |
|
N42UH |
1.28-1.35 |
12.8-13.5 |
≥963 |
≥12.1 |
≥1990 |
≥25 |
310-350 |
39-44 |
≤180 |
≥7.5 |
|
N45UH |
1.32-1.38 |
13.2-13.8 |
≥987 |
≥12.4 |
≥1990 |
≥25 |
334-366 |
42-46 |
≤180 |
≥7.5 |
|
N48UH |
1.37-1.42 |
13.7-14.2 |
≥1019 |
≥12.8 |
≥1910 |
≥24 |
358-390 |
45-49 |
≤180 |
≥7.5 |
|
N30EH |
1.08-1.15 |
10.8-11.5 |
≥812 |
≥10.2 |
≥2388 |
≥30 |
223-255 |
28-32 |
≤200 |
≥7.5 |
|
N33EH |
1.14-1.21 |
11.4-12.1 |
≥851 |
≥10.7 |
≥2388 |
≥30 |
247-279 |
31-35 |
≤200 |
≥7.5 |
|
N35EH |
1.17-1.24 |
11.7-12.4 |
≥876 |
≥11.0 |
≥2388 |
≥30 |
263-295 |
33-37 |
≤200 |
≥7.5 |
|
N38EH |
1.23-1.29 |
12.3-12.9 |
≥915 |
≥11.5 |
≥2388 |
≥30 |
287-318 |
36-40 |
≤200 |
≥7.5 |
|
N40EH |
1.26-1.32 |
12.6-13.2 |
≥939 |
≥11.8 |
≥2388 |
≥30 |
302-334 |
38-42 |
≤200 |
≥7.5 |
|
N42EH |
1.28-1.35 |
12.8-13.5 |
≥963 |
≥12.1 |
≥2388 |
≥30 |
310-350 |
39-44 |
≤200 |
≥7.5 |
|
N45EH |
1.33-1.38 |
13.3-13.8 |
≥995 |
≥12.5 |
≥2308 |
≥29 |
334-366 |
42-46 |
≤200 |
≥7.5 |
|
N28AH |
1.04-1.12 |
10.4-11.2 |
≥772 |
≥9.7 |
≥2786 |
≥35 |
207-239 |
26-30 |
≤230 |
≥7.5 |
|
N30AH |
1.08-1.15 |
10.8-11.5 |
≥812 |
≥10.2 |
≥2786 |
≥35 |
223-255 |
28-32 |
≤230 |
≥7.5 |
|
N33AH |
1.14-1.21 |
11.4-12.1 |
≥852 |
≥10.7 |
≥2786 |
≥35 |
247-279 |
31-35 |
≤230 |
≥7.5 |
|
N35AH |
1.17-1.24 |
11.7-12.4 |
≥876 |
≥11.0 |
≥2786 |
≥35 |
263-295 |
33-37 |
≤230 |
≥7.5 |
|
N38AH |
1.23-1.27 |
12.3-12.7 |
≥923 |
≥11.6 |
≥2786 |
≥35 |
287-318 |
36-40 |
≤230 |
≥7.5 |
|
N40AH |
1.26-1.31 |
12.6-13.1 |
≥939 |
≥11.8 |
≥2628 |
≥33 |
302-334 |
38-42 |
≤230 |
≥7.5 |
|
N42AH |
1.29-1.35 |
12.9-13.5 |
≥955 |
≥12.0 |
≥2628 |
≥33 |
318-350 |
40-44 |
≤230 |
≥7.5 |
|
Fortsetzung folgt |
||||||||||
|
Grade |
Remanenz Induktion |
Koerzitivfeldstärke |
Intrinsische Koerzitivfeldstärke |
Maximal Energie Produkt |
Arbeitstemperatur |
Dichte |
||||
|
Br |
HcB |
HcJ |
(BH)max |
Tw |
ρ |
|||||
|
T |
KGs |
KA/m |
KOe |
KA/m |
KOe |
KJ/m³ |
MGOe |
℃ |
g/cm3 |
|
|
Diffusionsprozess |
||||||||||
|
G48SH |
1.37-1.42 |
13.7-14.2 |
≥1011 |
≥13 |
≥1592 |
≥20 |
358-390 |
45-49 |
≤150 |
≥7.5 |
|
G50SH |
1.40-1.45 |
14.0-14.5 |
≥1027 |
≥13.2 |
≥1592 |
≥20 |
374-406 |
47-51 |
≤150 |
≥7.5 |
|
G52SH |
1.42-1.48 |
14.2-14.8 |
≥1067 |
≥13.4 |
≥1592 |
≥20 |
390-422 |
49-53 |
≤150 |
≥7.5 |
|
G55SH |
1.46-1.51 |
14.6-15.1 |
≥1083 |
≥13.6 |
≥1592 |
≥20 |
406-438 |
51-55 |
≤150 |
≥7.5 |
|
G45UH |
1.33-1.38 |
13.3-13.8 |
≥978 |
≥12.4 |
≥1990 |
≥25 |
334-366 |
42-46 |
≤180 |
≥7.5 |
|
G48UH |
1.37-1.42 |
13.7-14.2 |
≥1027 |
≥12.9 |
≥1990 |
≥25 |
358-390 |
45-49 |
≤180 |
≥7.5 |
|
G50UH |
1.40-1.45 |
14.0-14.5 |
≥1051 |
≥13.2 |
≥1990 |
≥25 |
374-406 |
47-51 |
≤180 |
≥7.5 |
|
G52UH |
1.42-1.48 |
14.2-14.8 |
≥1067 |
≥13.4 |
≥1990 |
≥25 |
390-422 |
49-53 |
≤180 |
≥7.5 |
|
G54UH |
1.46-1.51 |
14.6-15.1 |
≥1075 |
≥13.5 |
≥1990 |
≥25 |
406-438 |
51-55 |
≤180 |
≥7.5 |
|
G40EH |
1.26-1.31 |
12.6-13.1 |
≥955 |
≥12.0 |
≥2388 |
≥30 |
302-334 |
38-42 |
≤200 |
≥7.5 |
|
G44EH |
1.29-1.35 |
12.9-13.5 |
≥971 |
≥12.2 |
≥2388 |
≥30 |
318-350 |
40-44 |
≤200 |
≥7.5 |
|
G46EH |
1.33-1.38 |
13.3-13.8 |
≥1011 |
≥12.7 |
≥2388 |
≥30 |
334-366 |
42-46 |
≤200 |
≥7.5 |
|
G48EH |
1.37-1.42 |
13.7-14.2 |
≥1027 |
≥12.9 |
≥2388 |
≥30 |
358-390 |
45-49 |
≤200 |
≥7.5 |
|
G50EH |
1.40-1.45 |
14.0-14.5 |
≥1051 |
≥13.2 |
≥2308 |
≥29 |
374-406 |
47-51 |
≤200 |
≥7.5 |
PRODUCT DESCRIPTION
Industrial neodymium magnets, also known as neodymium iron boron (NdFeB) magnets, are a type of permanent magnet material composed of neodymium, iron, and boron. They possess high magnetic properties and strong magnetic energy product, making them an excellent choice for various industrial applications.
Here are some of the key features and benefits of industrial neodymium magnets:
High Magnetic Strength: Neodymium magnets exhibit the highest magnetic strength among permanent magnets, making them suitable for applications that require strong magnetic fields.
Cost-Effective: Despite their high magnetic strength, neodymium magnets are relatively cost-effective compared to other high-performance magnetic materials.
Versatility: They can be produced in a variety of shapes and sizes, allowing for flexibility in design and integration into different industrial systems.
Durability: Neodymium magnets are generally durable and can withstand harsh industrial environments.
Industrial neodymium magnets find widespread use in various sectors, including:
Electronics: They are commonly used in speakers, microphones, disk drives, and other electronic devices due to their high magnetic performance.
Motors and Generators: Neodymium magnets are essential components in the production of high-efficiency motors and generators, such as those used in electric vehicles and wind turbines.
Medical Equipment: Their strong magnetic properties make neodymium magnets suitable for use in medical devices like magnetic resonance imaging (MRI) machines.
Automotive Industry: They are used in various automotive components, including sensors and actuators, to improve performance and efficiency.
It's worth noting that neodymium magnets are susceptible to corrosion and oxidation. Therefore, they often require surface treatments such as galvanization or epoxy coating to enhance their durability and slow down the oxidation process.
Contact Us
Contact Phone
Contact E-mail
Contact Address
No.5,Aozhuangchen Industrial Park, Hangzhou, Zhejiang Province
Hot Products
The company is mainly engaged in diversified products such as space capsule integrated housing, marine ranch dedicated cabin, community integrated cabin, refrigeration and refrigeration, intelligent recuperation cabin and self-service sales cabin, and is committed to providing customers with one-stop solutions.
We are interested in our products.
Enter your contact information and we will contact you as soon as possible.
No.5,Aozhuangchen Industrial Park, Hangzhou, Zhejiang Province
Request Quote