Magnetizing and demagnetizing
Tridelta supplies non-magnetized and magnetized versions on request. In most cases, non-magnetized versions are particularly suitable for individual magnets in order to facilitate handling during transport and assembly and to prevent ferromagnetic particles from sticking. In addition, there is a risk of magnetic weakening due to mutual interference with low-coercivity materials (AlNiCo). With high-coercivity magnets (samarium-cobalt, hot-pressed and sintered neodymium magnets), magnetization after system assembly is usually not possible and there is no mutual weakening. Both versions are common for hard ferrite and plastic-bonded hard ferrite, depending on the application.
- A/m = amperes per meter
- Air gap
- Anisotropy
- Anisotropy magnets
- Tesla B
- (B-H)max – value
- Coercive field strength
- Curie temperature
- Demagnetization
- Demagnetization curve
- Diamagnetism
- Eddy current
- Flux density B
- Gauss
- H
- Hysteresis loop
- Induction
- Irreversible
- Isotropic magnets
- Magnetic field strength
- Magnetic flux
- Magnetic pole
- Magnetize
- Magnetizing and demagnetizing
- Maxwell
- Oersted
- Operating point
- Operating temperature
- Permeability
- Polarization
- Preferred direction
- Remanence
- Reversible
- Saturation
- Sintered magnet
- Temperature coefficient
- Tesla
- Weaver