Product Details
Payment & Shipping Terms
Minimum Order Quantity: 100pcs
Price: As negotiation
Packaging Details: cartons,pallets
Delivery Time: 20-25days
Payment Terms: T/T L/C
Supply Ability: 100 tons per month for NdFeB magnet
Magnetic Flux Density: |
High |
Pull Force: |
High |
Size: |
Customized |
Material: |
Neodymium |
Application: |
Widely Used |
Grade: |
N35-N52 |
Corrosion Resistance: |
High |
Magnetic Flux Density: |
High |
Pull Force: |
High |
Size: |
Customized |
Material: |
Neodymium |
Application: |
Widely Used |
Grade: |
N35-N52 |
Corrosion Resistance: |
High |
Sintered Neodymium Magnet, also known as Neodymium-Iron-Boron (NdFeB) or Powder Metallurgy Magent, is a kind of high-performance permanent magnet made from a combination of Neodymium, Iron, Boron and other rare earth elements. It has high remanence, high coercivity, high operating temperature, and high energy product, making it the most powerful and cost-effective type of permanent magnet available. With reasonable price and high performance, Sintered Neodymium Magnet is widely used in a variety of applications. It offers multi-polar magnetic orientation and excellent temperature resistance, making it suitable for a variety of industries. The grade of Sintered Neodymium Magnet ranges from N35 to N52.
Grade | Remanence | Coercivity | Intrinsic Coercivity | Max Energy Product | Working Temp | |||||
(Br) | (HcB) | (HcJ) | (BH)max | Tw | ||||||
KGs | T | KOe | KA/m | KOe | KA/m | MGOe | KJ/m³ | ℃ | ||
N Series |
N35 | 11.7-12.2 | 1.17-1.22 | ≥10.9 | ≥868 | ≥12 | ≥955 | 33-36 | 263-287 | ≤80 |
N38 | 12.2-12.5 | 1.22-1.25 | ≥11.3 | ≥899 | ≥12 | ≥955 | 36-39 | 287-310 | ≤80 | |
N40 | 12.5-12.8 | 1.25-1.28 | ≥11.4 | ≥907 | ≥12 | ≥955 | 38-41 | 302-326 | ≤80 | |
N42 | 12.8-13.2 | 1.28-1.32 | ≥11.5 | ≥915 | ≥12 | ≥955 | 40-43 | 318-342 | ≤80 | |
N45 | 13.2-13.8 | 1.32-1.38 | ≥11.6 | ≥923 | ≥12 | ≥955 | 43-46 | 342-366 | ≤80 | |
N48 | 13.8-14.2 | 1.38-1.42 | ≥11.6 | ≥923 | ≥12 | ≥955 | 46-49 | 366-390 | ≤80 | |
N50 | 14.0-14.5 | 1.40-1.45 | ≥10.0 | ≥796 | ≥11 | ≥876 | 48-51 | 382-406 | ≤60 | |
N52 | 14.3-14.8 | 1.43-1.48 | ≥10.0 | ≥796 | ≥11 | ≥876 | 50-53 | 398-422 | ≤60 | |
M Series |
35M | 11.7-12.2 | 1.17-1.22 | ≥10.9 | ≥868 | ≥14 | ≥1114 | 33-36 | 263-287 | ≤100 |
38M | 12.2-12.5 | 1.22-1.25 | ≥11.3 | ≥899 | ≥14 | ≥1114 | 36-39 | 287-310 | ≤100 | |
40M | 12.5-12.8 | 1.25-1.28 | ≥11.6 | ≥923 | ≥14 | ≥1114 | 38-40 | 302-326 | ≤100 | |
42M | 12.8-13.2 | 1.28-1.32 | ≥12.0 | ≥955 | ≥14 | ≥1114 | 40-43 | 318-342 | ≤100 | |
45M | 13.2-13.8 | 1.32-1.38 | ≥12.5 | ≥955 | ≥14 | ≥1114 | 43-46 | 342-366 | ≤100 | |
48M | 13.6-14.3 | 1.36-1.43 | ≥12.9 | ≥1027 | ≥14 | ≥1114 | 46-49 | 366-390 | ≤100 | |
50M | 14.0-14.5 | 1.40-1.45 | ≥13.0 | ≥1033 | ≥14 | ≥1114 | 48-51 | 382-406 | ≤100 | |
52M | 14.3-14.8 | 1.43-1.48 | ≥13.0 | ≥995 | ≥14 | ≥1114 | 50-52 | 398-414 | ≤100 | |
H Series |
33H | 11.3-11.7 | 1.13-1.17 | ≥10.6 | ≥844 | ≥17 | ≥1353 | 31-34 | 263-287 | ≤120 |
35H | 11.7-12.2 | 1.17-1.21 | ≥10.9 | ≥869 | ≥17 | ≥1353 | 33-36 | 263-287 | ≤120 | |
38H | 12.2-12.5 | 1.22-1.25 | ≥11.3 | ≥899 | ≥17 | ≥1353 | 36-39 | 287-310 | ≤120 | |
40H | 12.5-12.8 | 1.25-1.28 | ≥11.6 | ≥923 | ≥17 | ≥1353 | 38-41 | 302-326 | ≤120 | |
42H | 12.8-13.2 | 1.28-1.32 | ≥12.0 | ≥955 | ≥17 | ≥1353 | 40-43 | 318-342 | ≤120 | |
45H | 13.0-13.6 | 1.30-1.36 | ≥12.1 | ≥963 | ≥17 | ≥1353 | 43-46 | 326-358 | ≤120 | |
48H | 13.7-14.3 | 1.37-1.43 | ≥12.5 | ≥955 | ≥17 | ≥1274 | 46-49 | 366-390 | ≤120 | |
SH Series |
30SH | 10.8-11.3 | 1.08-1.13 | ≥10.1 | ≥804 | ≥20 | ≥1592 | 28-31 | 233-247 | ≤150 |
33SH | 11.3-11.7 | 1.13-1.17 | ≥10.6 | ≥844 | ≥20 | ≥1592 | 31-34 | 247-271 | ≤150 | |
35SH | 11.7-12.2 | 1.17-1.22 | ≥11.0 | ≥876 | ≥20 | ≥1592 | 33-36 | 263-287 | ≤150 | |
38SH | 12.2-12.5 | 1.22-1.25 | ≥11.4 | ≥907 | ≥20 | ≥1592 | 36-39 | 287-310 | ≤150 | |
40SH | 12.5-12.8 | 1.25-1.28 | ≥11.8 | ≥939 | ≥20 | ≥1592 | 38-41 | 302-326 | ≤150 | |
42SH | 12.8-13.2 | 1.28-1.32 | ≥12.4 | ≥987 | ≥20 | ≥1592 | 40-43 | 318-342 | ≤150 | |
45SH | 13.2-13.8 | 1.32-1.38 | ≥12.6 | ≥1003 | ≥20 | ≥1592 | 43-46 | 342-366 | ≤150 | |
48SH | 13.7-14.3 | 1.37-1.43 | ≥12.6 | ≥1003 | ≥20 | ≥1592 | 46-49 | 366-390 | ≤150 | |
UH Series |
30UH | 10.8-11.3 | 1.08-1.13 | ≥10.2 | ≥812 | ≥25 | ≥1990 | 28-31 | 223-247 | ≤180 |
33UH | 11.3-11.7 | 1.13-1.17 | ≥10.7 | ≥852 | ≥25 | ≥1990 | 31-34 | 247-271 | ≤180 | |
35UH | 11.7-12.2 | 1.17-1.22 | ≥10.8 | ≥860 | ≥25 | ≥1990 | 33-36 | 263-287 | ≤180 | |
38UH | 12.2-12.5 | 1.22-1.25 | ≥11.0 | ≥876 | ≥25 | ≥1990 | 36-39 | 287-310 | ≤180 | |
40UH | 12.4-12.8 | 1.24-1.28 | ≥11.3 | ≥915 | ≥25 | ≥1990 | 38-41 | 302-326 | ≤180 | |
42UH | 12.8-13.2 | 1.28-1.32 | ≥11.3 | ≥971 | ≥25 | ≥1990 | 40-43 | 318-342 | ≤180 | |
EH Series |
30EH | 10.8-11.3 | 1.08-1.13 | ≥10.2 | ≥812 | ≥30 | ≥2388 | 28-31 | 223-247 | ≤200 |
33EH | 11.3-11.7 | 1.13-1.17 | ≥10.5 | ≥836 | ≥30 | ≥2388 | 31-34 | 247-271 | ≤200 | |
35EH | 11.7-12.2 | 1.17-1.22 | ≥11.0 | ≥876 | ≥30 | ≥2388 | 33-36 | 263-287 | ≤200 | |
38EH | 12.2-12.5 | 1.22-1.25 | ≥11.3 | ≥899 | ≥30 | ≥2388 | 36-39 | 287-310 | ≤200 | |
AH Series |
30AH | 10.2-10.8 | 1.02-1.08 | ≥10.1 | ≥804 | ≥35 | ≥2706 | 28-30 | 223-247 | ≤220 |
33AH | 11.4-11.7 | 1.14-1.17 | ≥10.6 | ≥844 | ≥35 | ≥2706 | 31-33 | 247-263 | ≤220 | |
35AH | 11.7-12.1 | 1.17-1.21 | ≥10.9 | ≥876 | ≥35 | ≥2706 | 33-36 | 263-279 | ≤220 |
Grade | Working Temp | |
(L/D=0.7) | ||
℃ | ||
N Series |
N35~N52 | ≤80 |
M Series |
38M~50M | ≤100 |
H Series |
35H~48H | ≤120 |
SH Series |
33SH~48SH | ≤150 |
UH Series |
30UH~40UH | ≤180 |
EH Series |
30EH~38EH | ≤200 |
Mixing | 1.Mix the ingredients. |
Melting | 2.Dissolve the mixture at high temperature and prepare an alloy. |
Fine pulverization | 3.Turn the alloy into fine powder. |
Molding in a magnetic field | 4.When pressing the fine powder, apply a magnetic field to it and prepare a molded product of powder with aligned directions of magnetization. |
Sintering and heat treatment | 5.Sinter the product at about 1,100℃, and then subject it to heat treatment at about 600℃ to increase its magnetic characteristics. |
Processing | 6.Process the manufactured magnet base material and finish it into the product shape. |
Surface treatment | 7.Subject the product to surface treatment in order to make it rustproof. |
Magnetization | 8.Apply a magnetic field to give the magnet magnetism. |
Sintered Neodymium Magnets are most commonly used in Powder-Metallurgy-Magnet applications due to their high corrosion resistance and temperature resistance. These magnets are made of Neodymium-Iron-Boron and can withstand extreme temperatures. The magnetic orientation of these magnets is multi-polar, which makes them suitable for various applications. These Powder-Metallurgy-Magnets also come in a sintered shape, making them highly durable and reliable.
The unique properties of the Sintered Neodymium Magnets make them ideal for use in automotive, aerospace and industrial applications. Their corrosion resistance and temperature resistance make them suitable for use in high-temperature environments. The multi-polar magnetic orientation of the magnets allows them to be used in a variety of applications. Furthermore, their sintered shape makes them highly durable and reliable.
Overall, the Sintered Neodymium Magnets are highly reliable and versatile magnets that are suitable for a variety of applications. Their corrosion resistance, temperature resistance, multi-polar orientation and sintered shape make them an ideal choice for automotive, aerospace and industrial applications.
We offer customization services for Sintered Neodymium Magnets, also known as Neodymium Iron Boron Magnets. Our customization services cover a range of attributes:
We are committed to providing the highest quality sintered neodymium magnets and technical support. Our knowledgeable staff of engineers and technicians are here to provide assistance and answer any questions you may have.
We offer a full range of services, including:
Our technical support is available 24/7, and our team is always ready to help you find the right solution for your application.
Sintered Neodymium Magnet Packaging and Shipping
Sintered Neodymium Magnets are usually packaged and shipped in cardboard boxes and sometimes in plastic containers. The containers are designed to protect the magnets from damage during shipping. The packaging may also contain a label indicating the type of magnet, its size, and the manufacturer's details. The boxes are then securely sealed with tape before being shipped.