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Permanent Sintered Ferrite Magnets

Permanent Sintered Ferrite Magnets

0.1~10.0 USD
Min. Order: 100 Piece/Pieces
Trade Term: FOB
Payment Terms: L/C, T/T
Supply Ability: 1000000pcs/month
Place of Origin: Zhejiang
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Company Profile

Jingqiu Magnetic Electric Co.,LTD
Location: Ningbo, Zhejiang, China (Mainland)
Business Type: Manufacturer
Main Products: Sintered Disc Magnet, NdFeB Ring Magnet, NdFeB Ring Magnets, NdFeB Magnet Arc, Disc NdFeB Magnets

Product Detail

Model No.: Ferrite Magnet
Means of Transport: Ocean, Air
Application: Industrial Magnet
Shape: Block
Type: Permanent
Composite: Ferrite Magnet
Brand Name: Canphia Magnet
Production Capacity: 1000000pcs/month
Packing: carton
Delivery Date: 15-30days
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Product Description

 
Ferrite Magnet
The hard ferrite is manufactured with SrO or BaO and Fe2O3 by ceramic process,it is also called ceramic mangets. Because of its cheaper price, and production process is relatively simple, compared with the prices of their products relatively cheap in terms of other magnets. The main raw materials of ferrite magnets is oxide, so, it could not be eroded due to the impact of chemical substances or the environment (except for acid). Therefore, the surface does not need electroplating treatment. It is mainly used in handicrafts, drawing annex, toys, motor, loud speakers.
Sintered Ferrite Magnets
Hard ferrite magnets are manufactured by a die pressing followed by sintering process which allows economic production of components in a varied array of sizes and shapes. Ferrite magnets have excellent corrosion resistance and have normal operating capabilities between -40 oC and +250 oC.
Applications of Ceramic Magnet
·Speaker magnets
·DC brushless motors
·Magnetic Resonance Imaging (MRI)
·DC permanent magnet motors (used in cars)
·Separators (separate ferrous material from
·Used in magnetic assemblies designed for lifting,
Holding,retrieving and separating
·Magnetic Door Catcher
·Instrument and Meters
·Toys
·Arts and crafts
Attributes of Ceramic Magnet
·High intrinsic coercive force
·Available in simple shapes only due to manufacturing process
·Lower service temperature than alnico, greater than rare earth
·Lower energy product than alnico and rare earth magnets
Attributes of Ceramic Magnet
·High intrinsic coercive force
·Available in simple shapes only due to manufacturing process
·Lower service temperature than alnico, greater than rare earth
·Lower energy product than alnico and rare earth magnets
Magnetic Properties of Sintered Ferrite Magnets
National standard
GradeValue
BrHcb(BHC)Hcj(IHC)(BH)max
mTKGKA/mKOeKA/mKOeKj/m3MGOe
Y10T(=C1)200/2182.00/2.18125/1451.57/1.82210/2502.64/3.146.5/8.00.8/1.0
Y25360/3703.60/3.70135/1501.70/1.88140/1701.76/2.1422.5/25.32.8/3.2
Y30(=C5)380/3853.80/3.85191/2102.40/2.64199/2202.50/2.5126.0/283.4/3.7
Y30BH380/3903.80/3.90223/2352.80/2.95231/2452.90/3.0827.0/30.03.4/3.7
Y33410/4204.10/4.20220/2352.77/2.95225/2402.83/3.0131.5/33.04.0/4.2
Y35400/4104.00/4.10175/1952.20/2.45180/2002.26/2.5130.0/32.03.8/4.0
C8(=C8A)385/3903.85/3.90235/2552.95/3.20242/2653.05/3.3327.8/30.03.5/3.7
C10400/4104.00/4.10288/3003.62/3.77280/2873.51/3.6030.4/31.93.8/4.0
Chinese standard
MaterialBrHcBHcJ(BH)max
mTKGKA/mOeKA/mOeKj/m3MGOe
Y8T200~235≥2000125~160≥1570210~280≥26106.5~9.5≥0.8
Y22H310~360≥3100220~250≥2770280~320≥352020.0~24.0≥2.5
Y25360~400≥3600135~170≥1700140~200≥176022.5~28.0≥2.8
Y26H-1360~390≥3600220~250≥2512225~255≥283023.0~28.0≥2.9
Y26H-2360-380≥3600263-288≥3300318-350≥400024.0-28.0≥3.0
Y27H370~400≥3500225-240≥2830235-260≥295025.0~29.0≥3.1
Y28370-400≥3700175-210≥2200180-220≥226026.0-30.0≥3.3
Y28H-1380-400≥3800240-260≥3020250-280≥314027.0-30.0≥3.1
Y28H-2360-380≥3600271-295≥3400382-405≥180026.0-30.0≥3.3
Y30370~4003.7~4.0175~2102.20~2.64180~2202.26~2.7726.0~30.03.3~3.8
Y30H-1380~400≥3800230-275≥2890235-290≥295027.0~32.5≥3.4
Y30H-2395-415≥3950275-300≥3460310-335≥390027.0~32.0≥3.4
Y32400~420≥4000160~190≥2010165~195≥207030.0~33.5≥3.8
Y32H-1400-420≥4000190-230≥2390230-250≥289034.5-35.0≥4.0
Y32H-2400-440≥4000224-240≥2810230-250≥289031.0-34.0≥3.9
Y33410~430≥4100220~250≥2760225~255≥283031.5~35.0≥4.0
Y33H410-430≥4100250-270≥3140250-275≥314031.5-35.0≥4.0
Y34420-440≥4200200-230≥2510205-235≥258032.5-36.0≥4.1
Y35430-450≥4300215-239≥2700217-242≥273033.1-33.2≥4.2
Y36440-450≥4400247-271≥3100250-374≥440035.1-38.3≥4.4
Y38440-460≥4400285-305≥3580294-310≥369036.6-40.6≥4.6
Y40450-460≥4500330-354≥4150340-360≥427037.6-41.8≥4.7
USA standard
MaterialBrHcBHcJ(BH)max
mTKGKA/mKOeKA/eKOekj/m3MGOe
C12302.31481.862583.58.361.05
C53803.81912.41992.5273.4
C73403.42583.233184.0021.92.75
C8(=C8A)3853.852352.952423.0527.83.5
C8B4204.22322.9132362.9632.84.12
C93803.82803.5163204.0126.43.32
C104004.02883.6172803.5130.43.82
C114304.32002.5122042.5634.44.32
Europe standard
The standard from International Electronics Committee(IEC404-8-1)
GradeAllowed Value (min/typical)
BrHcb(BHC)Hcj(IHC)(BH)max
MTKGKA/mKOeKA/mKOeKj/m3MGOe
HF8/22200/2202.00/2.20125/1401.57/1.76220/2302.76/2.896.5/6.80.8/1.1
HF20/19320/3333.20/3.33170/1902.14/2.39190/2002.39/2.5120.0/21.02.5/2.7
HF20/28310/3253.10/3.25220/2302.76/2.89280/2903.52/3.6420.0/21.02.5/2.7
HF22/30350/3653.50/3.65255/2653.20/3.33290/3003.64/3.7722.0/23.52.8/3.0
HF24/16350/3653.50/3.65155/1751.95/2.20160/1802.01/2.2624.0/25.53.0/3.2
HF24/23350/3653.50/3.65220/2302.76/2.89230/2402.89/3.0124.0/25.53.0/3.2
HF24/35360/3703.60/3.70260/2703.27/3.39350/3604.40/4.5224.0/25.53.0/3.2
HF26/16370/3803.70/3.80155/1751.95/2.20160/1802.01/2.2626.0/27.03.2/3.4
HF26/18370/3803.70/3.80175/1902.20/2.39180/1902.26/2.3926.0/27.03.3/3.4
HF26/24370/3803.70/3.80230/2402.89/3.01240/2503.01/3.1426.0/27.03.3/3.4
HF26/26370/3803.70/3.80230/2402.89/3.01260/2703.27/3.3926.0/27.03.3/3.4
HF26/30385/3953.85/3.95260/2703.27/3.39300/3103.77/3.8926.0/27.03.3/3.4
HF28/26385/3953.85/3.95250/2653.14/3.33260/2753.27/3.4528.0/30.03.5/3.8
HF28/28385/3953.85/3.95260/2703.27/3.39280/2903.50/3.6028.0/30.03.5/3.8
HF30/26395/4053.95/4.05250/2603.14/3.33260/2703.27/3.3930.0/31.53.8/3.9
HF32/17410/4204.10/4.20160/1802.01/2.26165/1752.07/2.2032.0/33.04.0/4.1
HF32/22410/4204.10/4.20215/2252.70/2.83220/2302.76/2.8932.0/33.04.0/4.1
HF32/25410/4204.10/4.20240/2503.01/3.14250/2603.14/3.2732.0/33.04.0/4.1
Japan TDK standard
GradeCompositionBrHcbHcjBH max
mTkGkA/mkOekA/mkOeKJ/m3MGOe
FB40SrO6Fe2O3410+/-104.1+/-10234.8+/-11.92.95+/-0.15238.7+/-15.93.0+/-0.231.4+/-1.63.95+/-0.2
FB3NSrO6Fe2O3395+/-153.95+/-15234.8+/-11.92.95+/-0.15238.7+/-15.93.0+/-0.228.7+/-2.43.6+/-0.3
FB3GSrO6Fe2O3375+/-153.75+/-15254.6+/-15.93.2+/-0.2270.6+/-19.93.4+/-0.2525.9+/-2.43.25+/-0.3
FB3XSrO6Fe2O3375+/-153.75+/-15234.8+/-11.92.95+/-0.15238.7+/-15.93.0+/-0.225.9+/-2.43.25+/-0.3
FB1ASrO6Fe2O3220+/-152.20+/-15159.2+/-15.92.0+/-0.2258.6+/-19.93.25+/-0.258.9+/-1.61.1+/-0.2
FB5HSrO6Fe2O3405+/-154.05+/-15298.4+/-11.93.75+/-0.15322.3+/-11.94.05+/-0.1531.1+/-1.63.9+/-0.2
FB4XSrO6Fe2O3420+/-104.20+/-10234.8+/-11.92.95+/-0.15238.7+/-15.93.0+/-0.233.4+/-1.64.2+/-0.2
FB4BSrO6Fe2O3400+/-104.00+/-10254.6+/-11.93.2+/-0.2262.6+/-19.93.3+/-0.2530.3+/-1.63.8+/-0.2
FB4ASrO/
BaO6Fe2O3		410+/-104.10+/-10175.1+/-15.92.2+/-0.2176.7+/-15.92.22+/-0.231.8+/-1.64.0+/-0.2
FBGNSrO6Fe2O3440+/-104.40+/-10258.6+/-11.93.25+/-0.15262.6+/-11.93.3+/-0.1536.7+/-1.64.6+/-0.2
FB6BSrO6Fe2O3420+/-104.20+/-10302.4+/-11.93.8+/-0.15318.3+/-11.94.0+/-0.1533.4+/-1.64.2+/-0.2
FB6HSrO6Fe2O3400+/-104.00+/-10302.4+/-11.93.8+/-0.15358.1+/-11.94.5+/-0.1530.3+/-1.63.8+/-0.2
FB6ESrO6Fe2O3380+/-103.80+/-10290.5+/-11.93.65+/-0.15393.9+/-11.94.95+/-0.1527.5+/-1.63.45+/-0.2
FB5NSrO6Fe2O3440+/-104.40+/-10256.8+/-11.92.85+/-0.152259.2+/-11.92.88+/-0.1536.7+/-1.64.6+/-0.2
FB5BSrO6Fe2O3420+/-104.20+/-10262.6+/-11.93.3+/-0.15266.6+/-11.93.35+/-0.1533.4+/-1.64.2+/-0.2
Physical Characteristics
Compressive Strength1.4 x 104 kg/cm2
Required Magnetizing Field12,000 – 15,000 Oe
Electrical Resistivity> 104 μ-ohm-cm/cm2
Density4.7-5.0 g/cm3
Recoil Permeability1.05 μr
Rev. Temp. Coeff.-0.20 %/°C
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