Why Are SmCo Magnet Materials Magnetic?

  •   A Closer Look at Magnetic Permeability and Why Some Types of Materials Are More Attracted by SmCo Magnet Than Others

      Two magnets attract to each other because their fields interact. Usually, materials that are not magnets do not have a net external field, and obviously, they do not attract to things; however, some metal alloys can have a net field created by applying an external field. This induced field is only present when the external drive field is applied.

      A permanent magnet is “attracted” to a ferrous workpiece because magnetism is “induced” in the workpiece. The magnetism is induced by the magnetic field emanating from the permanent magnet. (A workpiece is what the magnet or magnetic field is acting on. This could be the steel door skin of a refrigerator, a nail, a metal plate used in a magnetic latch, etc.) A magnet is not attracted to a piece of wood because no internal field in induced in the wood. With no induced internal field in the wood, there is no field interaction and no attraction.

      So, a magnetic field can be induced in a piece of steel. As stated above, an external magnetic field is needed to do this. That is why two pieces of steel do not attract to each other. They do not induce fields in each other. No field, no interaction, no attraction.

      The degree of the induced magnetism is related to the ferrous material’s magnetic permeability, and it is expressed as a unit-less value designated by the Greek letter, mu (μ). The higher the material’s permeability, the greater the magnetic induction and the resulting force of attraction. As shown below, a material’s permeability is not constant and does have a limit.

      Materials that are not attracted to a magnet like air, wood, plastic, brass, etc., have a permeability of, essentially, 1. There is no magnetism induced in them by an external magnetic field, and therefore, they are not attracted by a magnet. Ferrous, Nickel, and Cobalt alloys have a high permeability (μ), and thereby, magnetic fields can be induced in them when exposed to an external magnetic field.

      Induced Magnetism in an Alloy (B) = Alloy’s Permeability (μ) X External Applied Drive Field (H)

      In the CGS unit system:

      B is in (Gauss) Permeability (unit-less) External Field strength (Oersted

      Induced (Internal Field) = ~ 15,000 Gauss = (30) x 500 Oersted

      The 15,000 Gauss field induced in the mild steel interacts with the applied magnetic field, and there is attraction.

      Permeability - Wood

      Wood Example:

      Induced (Internal Field) = 500 Gauss (1) x 500 Oersted

      The only field in the wood is from the externally applied magnetic field and no new field is induced to interact with the applied field. No Attraction!

      The magnetic permeability of a material is not constant, and for a given temperature, it changes based on the intensity of the applied external magnetic field (H). The relative aspect of permeability is more apparent when illustrated with a graph depicting a material’s permeability relative to the applied external field. (Refer to Figure 3 magnetic permeability table)

      Magnetic Induction - Permeability Plot

      Oftentimes, technical books will list a material’s magnetic permeability as a constant, but this is far from accurate and is very misleading. For instance, Image 3 is a plot for mild Steel C-1018, and it illustrates the Induced Magnetism (G) for various applied Field Strength levels (H). It also depicts the corresponding magnetic permeability at each applied field strength level. The permeability for C-1018 may be advertised as 100 (in the CGS unit system), but this is the peak value, and it is less than 20 over most of the curve.

      A material’s permeability is important, because it allows one to anticipate the performance of a magnet when used in a design. For instance, a customer may want to pick up automobile exhaust tubing with a magnetic end effector on a robot-arm. When the tube is made from an aluminized mild steel alloy the magnet handling device may work just fine; however, when the tube is 410 SS, the tube may be dropped. The force of attraction between the handling magnet and the tube is greater with the aluminized mild steel than the 410 SS because the mild steel has a higher permeability than the 410 SS.

      Key Points:

      A ferrous material is attracted to a permanent magnet because the permanent magnet induces magnetism within the ferrous material. The permanent magnet’s field and the newly induced field in the ferrous part interact and attract.

      Magnetic Permeability is the characteristic of a material which represents the establishment of an induced internal magnetic field by an external magnetic field. The magnetic permeability is the proportionality between the Induced Field (B) and the applied Field Strength (H).

      A material’s permeability indicates how easily an external magnetic field can induce an internal field in the material. The higher the internal field, the higher the force of attraction.

      A material’s permeability is not constant and changes based on number a of factors. The effective permeability of a material can change with the temperature, how it was processed, the intensity of the applied drive field, humidity, etc.

      Do not hesitate to contact us,as an professional Alnico Ring Magnets manufacturer, We will offer the best service for every customer.