We provide different types of magnets and their properties, for example, rare earth magnet material,bonded magnetic compounds to meet the diverse application requirements for our customers, including hard magnetic bonded compound,soft magnetic bonded compound and ferrite compound. If you are looking for a lightweight, reliable, mass-produced, and customized product, bonded magnetic compounds are an ideal alternative.In addition to bonded magnetic compounds, we can also cooperate with customers to develop customized functional composite materials, such as high-density compounds and metal bonded plastic. We are committed to providing customers with new user experience and different design inspiration.
Light density and low cost of ferromagnetic compounds (hard ferrite magnets) create a high-cost performance. Therefore, it has the largest market demand and is the most extensively used in the field of modern home appliances, office supplies, communication devices, and defense.
The orientation magnetization process can be completed in the process of injection molding, furthermore, insert molding can also be used to achieve the required products, those can reduce the subsequent process and total system cost.
The high resistivity of hard-ferrite bonded magnets results in low eddy current loss, which can be used for high-speed motor.
As an experienced ferrite magnet supplier, Chase provide high quality hard ferrite magnets, feel free to contact us.
Properties of hard-ferrite bonded magnetic compounds:
·
Excellent mechanical properties make it more resistant to crack.
·
The thermoplastic resin utilized is capable of the operating temperature of -40-200℃.
·
Excellent corrosion resistance makes it suitable for various requirements of the environment.
Good temperature stability and resistance to thermal demagnetization.
·
Applications of hard-ferrite bonded magnetic compounds:
Magnetic roller for the printer; magnetic encoder; cooling water bump; motor rotor; sensor; etc.
Specification of hard-ferrite bonded magnetic compounds:
|
Grade
|
Br
Residual Flux Density
|
HcB
Coercive Force
|
HcJ
Intrinsic Coercive Force
|
(BH)max
Maximum Energy Product
|
Mold density
|
Melt Flow Rate
|
IZOD Impact Strength
|
Tensile Strength
|
Flexural Strength
|
Composition
|
|
mT
|
Gs
|
kA/m
|
Oe
|
kA/m
|
Oe
|
kJ/m3
|
MGOe
|
g/cm3
|
g/10min
|
kJ/m2
|
MPa
|
MPa
|
|
FA11
|
213
|
2130
|
162
|
2040
|
279
|
3500
|
8.8
|
1.10
|
3.03
|
100
|
50
|
85
|
160
|
Ferrite+PA6
|
|
FA15
|
245
|
2450
|
183
|
2300
|
251
|
3150
|
11.9
|
1.50
|
3.32
|
80
|
35
|
85
|
165
|
|
FA19
|
284
|
2840
|
195
|
2450
|
235
|
2950
|
15.6
|
1.96
|
3.60
|
120
|
19
|
90
|
170
|
|
FA20T
|
293
|
2930
|
193
|
2420
|
223
|
2800
|
16.6
|
2.08
|
3.70
|
80
|
15
|
85
|
160
|
|
FA22T
|
305
|
3050
|
191
|
2400
|
229
|
2870
|
18.1
|
2.27
|
3.85
|
50
|
11
|
80
|
145
|
|
|
|
FB12
|
227
|
2270
|
171
|
2150
|
279
|
3500
|
10.0
|
1.26
|
3.10
|
150
|
30
|
57
|
108
|
Ferrite+PA12
|
|
FB16
|
258
|
2580
|
193
|
2430
|
255
|
3200
|
13.1
|
1.64
|
3.30
|
110
|
25
|
62
|
110
|
|
FB19R
|
283
|
2830
|
205
|
2570
|
255
|
3200
|
15.5
|
1.95
|
3.58
|
100
|
20
|
56
|
110
|
|
FB20RT
|
294
|
2940
|
203
|
2550
|
247
|
3100
|
16.7
|
2.10
|
3.70
|
90
|
15
|
49
|
90
|
|
FB23R
|
306
|
3060
|
209
|
2620
|
253
|
3180
|
18.0
|
2.26
|
3.83
|
50
|
12
|
50
|
93
|
|
|
|
FC14
|
242
|
2420
|
175
|
2200
|
271
|
3400
|
11.3
|
1.42
|
3.35
|
150
|
13
|
70
|
130
|
Ferrite+PPS
|
|
FC15
|
250
|
2500
|
179
|
2250
|
247
|
3100
|
12.1
|
1.52
|
3.44
|
195
|
9
|
55
|
110
|
|
FC16B
|
256
|
2560
|
178
|
2234
|
239
|
3000
|
12.7
|
1.60
|
3.54
|
260
|
9
|
55
|
110
|
|
FC17
|
268
|
2680
|
177
|
2226
|
218
|
2736
|
13.7
|
1.72
|
3.61
|
128
|
8
|
50
|
100
|
MFR Test Condition: FA/FB series (270℃, 10kg); FC series (310℃, 10kg).
