CURIEZING – THE TECHNOLOGICAL LEAP AHEAD IN ALTERNATING FIELD DEMAGNETIZATION
We have been reliably eliminating residual magnetism from materials for more than ten years now. Because conventional methods mostly leave hidden residual magnetism in materials, we developed our own demagnetizing method. Maurer Degaussing® neutralizes ferromagnetic material with a result similar to a forged component which has not been exposed to magnetism from magnetic lifters or other sources. Measurements, and the experience of many users worldwide, demonstrate that the Maurer method shows positive demagnetizing phenomena such as high permeability and magnetic “self-healing” effects.
Maurer Degaussing® achieves demagnetization to a level below the strength of the earth’s magnetic field. The method has absolute process reliability – and is very productive and energy saving.
Our demagnetizers are based on Maurer Degaussing® technology and are available exclusively from Maurer Magnetic. We offer you machines with a modular design which satisfy all demagnetizing requirements of modern manufacturing processes. Well-known companies in automotive, metal processing and medical technology have relied on Maurer Degaussing® technologies for many years now.
HIGH PERFORMANCE DEMAGNETIZERS (HLE)
INDUSTRIAL DEMAGNETIZER - MM DN + VE
DEMAGNETIZING BEFORE CLEANING - MM DN + SE
INDUSTRIAL DEMAGNETIZINGLER - MM DN + CT-U
COMPACT DEMAGNETIZER - MM DN + KE
BAR AND PIPE DEMAGNETIZERS - MM DN + RE
DEMAGNETIZERS - MM JE
The MM JE demagnetizing machines are operated directly at mains frequency. The demagnetizing yokes generate a stray magnetic field over the cover panel of the machine, with an operating area larger than a comparable plate demagnetizer. Using these machines, residual magnetism can be eliminated from ferromagnetic components to a penetration depth of approximately 10 mm. Thus the MM JE yoke magnetizers are ideal e.g. to demagnetize tools or flat components. Demagnetizers of the series MM JE165 / 266 / 300 can be operated manually, or integrated into automated processes.