Injection Bonded Ferrite Molding Roll Over Sensor Magnets

/Injection Bonded Ferrite Molding Roll Over Sensor Magnets
  • Injection Bonded Ferrite Molding Roll Over Sensor Magnets
Primary Competitive Advantages:
  • We are A Professional Permanent Magnets & Magnetic Assemblies Company Operating Since 2004
  • Our Quality Guaranteed
  • We Ship Worldwide
  • Small Orders Accepted
  • OEM Design Approvals
  • All Payment Accepted
  • Injection Bonded Ferrite Molding Roll Over Sensor Magnets, Injection Bonding Ferrite Ceramic Magnets, Sensor Or Encoder Magnets, Multipole Bonded Isotropic/Anisotropic Magnets

    Injection Bonded Ferrite Molding Roll Over Sensor Magnets Feature:
    Material Injetion Bonded Ferrite and Steel
    Coating No
    Design Drawing As customers’ requests
    Tolerence +/-0.05mm
    Technology Injetion Ferrite
    Used Roll Over Sensors and Encoders

    Characteristics
    Huge variety of shaping possibilities for intricate and complex shapes
    Very good edge strength and greater resistance to Impacts.
    Dimensional precision with very high consistency without any additional processing.
    Consistent magnetic characteristics built to suit custom assemblies.
    Non-corrosive due to their anti-oxidation characteristics
    Simple to complex multi-pole magnetization possible.
    Isotropic/Anisotropic Magnets can be manufactured with very high efficiency and reliability
    Reduction in weight of the magnet as compared to sintered magnets.
    Monobloc molding (Insert molding/Over molding) possible thereby reducing extra assembly operations.
    Highly competitive for multi-pole motor and sensor magnets
    High Degree of machinability.   Position Encoder Magnets Bonded Ferrite Rings

    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)