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MQP-11.6.5HD-20585-070

MQP-12-8HD-20175 is designed for applications which require lower flux.

Part No.
Maximum Process Temperature*
Download Datasheet
Sieve Screen analysis
Residual Induction, Br
Total>40 Mesh
(420mm x 420µm opening)
Energy Product, (BH)max
Total>60 Mesh
(250mm x 250µm opening)
Intrinsic Coercivity, Hci
Total>80 Mesh
(177x177µm opening)
Magnetizing Field to
>95% Saturation (Min.), Hs
Total>100 Mesh
(149x149µm opening)
Temperature Coefficient of Br, α, to 100°C
Total<270 Mesh
(53mm x 53µm opening)
Temperature Coefficient of Hci, β, to 100°C
Density (theoretical)
Coercive Force, Hc
Apparent Density
Curie Temperature, Tc
Composition
Maximum Operating Temperature**
Legend
  • *** Properties measure at 25°C, unless otherwise specified.
  • ** The Maximum Operating Temperature for a magnet made from this powder is dependent upon the specific application, this type of magnet, and magnet geometry.
  • * Maximum Process Temperature is defined here as <2% reduction in flux (i.e. structural loss) after heating powder 1 hour in air.
  • ! All powders are measured under standard mesh size of -40M.
  • Most compression bonded magnets exhibit a typical MQP volumetric loading of 77.5%, a typical HD powder has 80% by volume loading.
Part No.
Download Datasheet
Residual Induction, Br
Energy Product, (BH)max
Intrinsic Coercivity, Hci
Springback (OD)
Springback (ID)
Density
Legend
  • *** Properties measure at 25°C, unless otherwise specified.
  • ** The Maximum Operating Temperature for a magnet made from this powder is dependent upon the specific application, this type of magnet, and magnet geometry.
  • * Maximum Process Temperature is defined here as <2% reduction in flux (i.e. structural loss) after heating powder 1 hour in air.
  • ! All powders are measured under standard mesh size of -40M.
  • Most compression bonded magnets exhibit a typical MQP volumetric loading of 77.5%, a typical HD powder has 80% by volume loading.

HD powders are designed to deliver higher density magnets when pressed under typical compression molding conditions. While most compression bonded magnets exhibit a typical MQP volumetric loading of 77.5%, a typical HD powder loading is 80vol%. The higher loading is a direct result of behavior during compression molding, and HD powders do not exhibit any difference in density when used for injection molding.​

The % value indicate the volumetric loading of magnetic powder.

If you are using Google Chrome and Windows 10, you may not be able to see the data values when you mouse over the curves. Click here to see how you can adjust your settings.

HD powders are designed to deliver higher density magnets when pressed under typical compression molding conditions. While most compression bonded magnets exhibit a typical MQP volumetric loading of 77.5%, a typical HD powder loading is 80vol%. The higher loading is a direct result of behavior during compression molding, and HD powders do not exhibit any difference in density when used for injection molding.​

The % value indicate the volumetric loading of magnetic powder.

If you are using Google Chrome and Windows 10, you may not be able to see the data values when you mouse over the curves. Click here to see how you can adjust your settings.

HD powders are designed to deliver higher density magnets when pressed under typical compression molding conditions. While most compression bonded magnets exhibit a typical MQP volumetric loading of 77.5%, a typical HD powder loading is 80vol%. The higher loading is a direct result of behavior during compression molding, and HD powders do not exhibit any difference in density when used for injection molding.​

The % value indicate the volumetric loading of magnetic powder.

If you are using Google Chrome and Windows 10, you may not be able to see the data values when you mouse over the curves. Click here to see how you can adjust your settings.

HD powders are designed to deliver higher density magnets when pressed under typical compression molding conditions. While most compression bonded magnets exhibit a typical MQP volumetric loading of 77.5%, a typical HD powder loading is 80vol%. The higher loading is a direct result of behavior during compression molding, and HD powders do not exhibit any difference in density when used for injection molding.​

The % value indicate the volumetric loading of magnetic powder.

If you are using Google Chrome and Windows 10, you may not be able to see the data values when you mouse over the curves. Click here to see how you can adjust your settings.

HD powders are designed to deliver higher density magnets when pressed under typical compression molding conditions. While most compression bonded magnets exhibit a typical MQP volumetric loading of 77.5%, a typical HD powder loading is 80vol%. The higher loading is a direct result of behavior during compression molding, and HD powders do not exhibit any difference in density when used for injection molding.​

The % value indicate the volumetric loading of magnetic powder.

If you are using Google Chrome and Windows 10, you may not be able to see the data values when you mouse over the curves. Click here to see how you can adjust your settings.

HD powders are designed to deliver higher density magnets when pressed under typical compression molding conditions. While most compression bonded magnets exhibit a typical MQP volumetric loading of 77.5%, a typical HD powder loading is 80vol%. The higher loading is a direct result of behavior during compression molding, and HD powders do not exhibit any difference in density when used for injection molding.​

The % value indicate the volumetric loading of magnetic powder.

If you are using Google Chrome and Windows 10, you may not be able to see the data values when you mouse over the curves. Click here to see how you can adjust your settings.

More details are available on the desktop version of our website

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