Menu Icon
    Magnetic (Gauss) Measurement and Certification Image
    Date Icon
    01 May 2024
    Magnetic (Gauss) Measurement and Certification

    Magnetic (Gauss) Measurement and Certification; Our magnetic measurement devices have calibration certificates obtained from the relevant institutions.

    Eng Mineral is the Magnetic Measurement Center that has the right to issue a certificate as a result of the measurement.

    Safe Contractor

    We use a Gauss meter to verify the surface magnetic strength of any magnet.

    To make sure our readings are accurate, we have our equipment checked regularly.

    We have a magnet calibration certificate and a Magnet Testing Calibration Test Certificate.

    We confirm the surface magnetic strength of magnets using the industry standard method with a certified gaussmeter.

    For all magnets we manufacture for the food and pharmaceutical industry, we provide gauss certification when required.

    Magnetic Measurement Parameters

    The coercive field strength, H CJ , is the intensity of the applied magnetic field necessary to completely reduce the magnetization of the ferromagnetic material such that the magnetic polarization J is zero. KOERZIMAT can determine the coercive field strength H CJ in an open magnetic circuit in accordance with the material and manufacturing components' virtually independent geometry (Standardized Measurements IEC 60.404-7) It is not necessary to produce test specimens of a specific size or shape.

    The magnetic dipole moment is a measure of the strength of the magnetic dipole. KOERZIMAT can determine the magnetic saturation dipole moment j S almost in accordance with independent geometry (Standardized Measurements IEC 60.404-14.) No specific size or shape is required.

    Magnetic permeability is the degree to which the material is magnetized in response to a magnetic field. It is the ratio of magnetic flux density B and magnetic flux H. The physical constant µ 0 is the magnetic permeability in vacuum. The relative permeability, µ R is the cation of u and u is the cation of 0. MAGNETOSCOP and MAGNETOMAT with the permeability probe will determine the relative permeability of materials and manufactured components in accordance with IEC 60404-15, ASTM A342M and VG 95578. It is not necessary to produce test specimens of special size or shape.

    KOERZIMAT determines the relative permeability μ(H).

    Magnetic Saturation is the maximum possible magnetization of ferromagnetic material characterized by the parallel orientation of all magnetic moments inside the material. KOERZIMAT can determine the magnetic saturation dipole moment j S and the derived weight specific magnetic saturation σ S (4πσ) of the material and, in accordance with IEC 60.404-14, the independent geometry of the manufactured parts by the drawing method in virtually conformity with IEC 60.404-14. It is not necessary to produce test specimens of specific size or shape.

    Magnetic flux density, a measure of magnetic field strength, is the amount of magnetic flux in a unit area taken perpendicular to the direction of magnetic flux. It can be described as a vector field. Fluxgate sensors can determine the magnitude and direction of B. Using the MAGNETOSCOP and MAGNETOMAT magnetometer with appropriate sensors, the magnetic flux density can be determined simultaneously in 1 to 3 directions. With a differential probe, the magnetic flux density gradient can be determined in one direction.

    The J(H) hysteresis characterizes the response of magnetic material when exposed to an external magnetic field. Important measurement parameters are Maximum Magnetic Saturation, Relevance, Coercive Field Strength and Permeability. The core loss can be determined from the field surrounded by a hysteresis loop.

    Tags : Magnetic measurement Gauss certification Gauss meter Magnet calibration certificate Magnet Testing Calibration Test Certificate Gaussmeter Eng Mineral