Custom Wholesale Arc motor magnet pure permanent magnet Suppliers, Exporter

Klasse

Remanenz Induktion

Koerzitivfeldstärke

Intrinsische Koerzitivfeldstärke

Maximal Energie Produkt

Arbeitstemperatur

Dichte

HcB

HcJ

(BH)max

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

Fortsetzung folgt

Klasse

Remanenz Induktion

Koerzitivfeldstärke

Intrinsische Koerzitivfeldstärke

Maximal Energie Produkt

Arbeitstemperatur

Dichte

HcB

HcJ

(BH)max

Klasse

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

Klasse

Remanence Induction

Koerzitivfeldstärke

Intrinsische Koerzitivfeldstärke

Maximal Energie Produkt

Arbeitstemperatur

Dichte

HcB

HcJ

(BH)max

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

Arc Motor Magnet Pure Permanent Magnet is a high-performance permanent magnet material designed specifically for motors. This kind of magnet is made of rare earth permanent magnet materials (such as neodymium iron boron NdFeB), which has extremely high magnetic energy product and coercive force, and can generate a strong magnetic field in a small volume.

The main features of permanent magnet arc motor magnets include:

High remanence (Br): High remanence means that the magnet can still maintain strong magnetic properties after the external magnetic field is removed.
High coercive force (Hc): High coercive force means that the magnet has strong ability to resist external magnetic field interference and is not easy to demagnetize.
High magnetic energy product (BHmax): High magnetic energy product means that the magnet can store more magnetic energy in a smaller volume.
Good temperature stability: It can still maintain good magnetic properties in high temperature environments.

Application areas
Permanent magnet arc motor magnets are widely used in various motors, especially where high performance, efficiency and reliability are required. The following are its main application areas:

New energy vehicles: In the motors of new energy vehicles, permanent magnet arc motor magnets are used to generate driving force and improve the vehicle's cruising range and performance.
Industrial motors: In the fields of industrial automation, robots, CNC machine tools, etc., permanent magnet arc motor magnets are used to drive various equipment and improve production efficiency.
Home appliances: In household appliances such as washing machines, air conditioners, electric fans, etc., permanent magnet arc motor magnets are used to drive motors to achieve energy saving, low noise and long life.
Aerospace: In the aerospace field, permanent magnet arc motor magnets are used to drive various precision instruments and equipment to ensure their stable operation in extreme environments.