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Plastic Bonded Compound Ferrite Magnets for Filter Pump

/Plastic Bonded Compound Ferrite Magnets for Filter Pump
  • Plastic Bonded Compound Ferrite Magnets for Filter Pump

Plastic Bonded Compound Ferrite Magnets for Filter Pump, Overmolded Plastic Bonded Ferrite Magnetic Cores, High Precision Axial Injection Molded Ferrite Rotor Magnet, Pump Rotor Magnets, Permanent Multipole Injection Molded Ferrite Magnetic Assemblies, Bonded ceramic magnet Isotropic and Anisotropic Permanent Plastic ferrite bonded magnet, Magnetic Assembly China Supplier

Plastic Bonded Compound Ferrite Magnets for Filter Pump No. HSIMM-47
Material: plastic injection-molded Ferrite
Number of magnetizing poles: radial multipole 4, 8, 16, 24, 32, 64 poles ……
Applications: Motors,Couplings,Sensors,Encoders, Holding systems,Loudspeakers,microphones and much more.

We are a factory specializing in the production of Plastic Injection Moulded Ferrite Magnet Core for many years. With such a long-term production experience, we are far ahead of our peers in terms of degree of automation and cost control. Ferrite core is a high-frequency magnetic material, mainly used for high-frequency transformers, high-frequency magnetic rings (for anti-interference), etc., to increase magnetic permeability and improve inductance quality factors. Moreover, by using ferrite magnetic powder, these magnets have excellent corrosion resistance.

Technical parameters

Specifications
Plastic Injection POM
Place of origin Zhejiang, China
Specification Customizable
Br 3600~3900
Hcb 3100-3400
Hcj 3300-3800
Magnetism direction Radial Magnetized
Usage Industrial Usage

Dimensions of magnet core

Type Dimensions
A B C D
Φ19*20 19±0.05 20±0.2 34±0.15 3.5±0.02
Φ19*25 19±0.05 25±0.2 39±0.15 3.5±0.02
Φ19*30 19±0.05 30±0.2 44±0.15 3.5±0.02
Φ19*35 19±0.05 ±0.2 47±0.15 3.5±0.02
Φ21*35 21±0.05 35±0.2 54±0.15 ±0.02

Industrial Permanent Bonded Ferrite Magnets
Bonded ferrite is produced by mixing plastic matrix and ferrite oxides.
The production process of permanent bonded ferrite magnets has been known since the 50’s, mainly the injection moulding and compression practice.

The assembling process and miniaturization of devices using these kinds of magnets are optimized thanks to the over-moulding process. In this case, magnet post-processing is usually not necessary. Magnetization configurations can be optimized to the need of the final device application.

The Production of Permanent Bonded Magnets
Permanent bonded ferrite magnets have high resistance to oxidation and in general to chemical aggression. Permanent Bonded Injection Ferrite Magnets for Dishwasher

This makes bonded ferrite magnets particularly suited to application where the contact with liquid or aggressive environment is frequent. Thermal behaviour is acceptable for many applications as its coercive force is not reduced up to maximum working temperature, 120 °C. Industrial Permanent Bonded Ferrite Magnets

Permanent bonded ferrite magnets have the following applications:
Motor magnets
Magnetic rings for aerodynamic component
Colour television monitor
Isotropic injection products
Anisotropic injection products
HSMAG Magnets specialized in the production of permanent bonded ferrite magnets. With an experience of more than 30 years, we have successfully designed and manufactured a full range of top-quality products and distributed them around the world. Plastic Injection Moulded Ferrite Magnet Cores

More
  • Customized is Available
  • Affordable price
  • Quality guaranteed
  • T/T or L/C accepted
  • Other payment accepted
  • Fast shipping, Worldwide delivery
  • 24-Hours excellent customer service
  • Offer free magnetic solution
  • Bulk discounts for larger orders

Product Range

Imperial

Injection Bonded Ferrite Magnets

GRADES

F2819

F2819A

F1506

F2414

F2515

F2820

F2920

Property

Units

PA12

PA12

PA6

PA6

PA6

PA6

PA6

Br
Residual Induction

mT
(G)

279
(2790)

278
(2780)

156
(1560)

240
(2400)

248
(2480)

284
(2840)

288
(2880)

bHc
Coercive Force

kA/m
(Oe)

183
(2350)

183
(2300)

123
(1550)

177
(2230)

183
(2300)

183
(2300)

189
(2380)

iHc
Intrinsic Coercivity

kA/m
(Oe)

211
(2700)

216
(2710)

236
(2970)

239
(3000)

237
(2980)

211
(2650)

231
(2900)

BHmax
Max. Energy Product

kJ/m3
(MGOe)

15.4
(1.94)

15.4
(1.93)

4.9
(0.61)

11.4
(1.43)

12.2
(1.53)

15.8
(1.99)

15.9
(2.00)

Moulded density

gm/cm3

3.5

3.61

3.66

3.26

3.36

3.6

3.8

Maximum Operating Temperature

Deg C

125

125

150

150

150

150

150

Type

Isotropic / Anisotropic

Anisotropic

Anisotropic

Anisotropic

Anisotropic

Anisotropic

Anisotropic

Anisotropic

Tensile Strength

X 105N/m2
(kgf/cm2)

550
(560)

780
(800)

710
(720)

725
(740)

Flexural Strength

X 105N/m2
(kgf/cm2)

1180
(1200)

1240
(1260)

1620
(1650)

1770
(1800)

1940
(1980)

1710
(1740)

1590
(1620)

Flexural Strength

X 105N/m2
(kgf/cm2)

1180
(1200)

1240
(1260)

1620
(1650)

1770
(1800)

1940
(1980)

1710
(1740)

1590
(1620)

Flexural Modulus

X 109N/m2
(X104kgf/cm2)
14.0
(14.3)
15.6
(16.0)
8.0
(8.2)
14.7
(15.0)
17.4
(17.7))
21.4
(21.8)
23.7
(24.5)

Impact Strength IZOD

kJ/m2
(kgf*cm/cm2)
25.3
(25.8)
16.7
(17.0)
NB 22.6
(23)
30.2
(30.8)
14.7
(15.0)
15.3
(15.6)
Metrics
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