Flat pot magnets of hard ferrite

Pot magnets made of hard ferrite, steel housing, with cylinder bore, galvanised

technical drawing Pot magnets made of hard ferrite with cylinder bore galvanised | © Brugger GmbH
technical drawing Pot magnets made of hard ferrite with cylinder bore galvanised | © Brugger GmbH
technical drawing Pot magnets made of hard ferrite with cylinder bore galvanised | © Brugger GmbH

PRODUCT INFORMATION:

Our pot magnets impress with their reliable adhesive force and robust construction. The strong hard ferrite magnet is embedded in a sturdy steel housing. The precise cylinder bore enables simple and secure installation.

The galvanised surface protects the magnetic system from corrosion and guarantees a long service life - ideal for demanding applications in industry, workshops or installations.

As an alternative to the standard version, we also offer customised solutions:
" Black galvanised surface for housing, resulting in higher corrosion resistance (up to 720 hours in salt spray test - depending on magnet material)

Data sheet
Article numberD mmd mmd1 mmH mmAdhesive force* NWeight gTemperature °C
F50C-v50 +0.2/-0.18,5 +0.2/-0.222 10 +0.5/-0.218085200 Download CAD file
F57C-v57 +0.2/-0.16,5 +0.2/-0.224 10,5 +0.5/-0.2230130200 Download CAD file
F63C-v63 +0.3/-0.16,5 +0.2/-0.224 14 +0.5/-0.2290197200 Download CAD file
F80C-vH10L6.480 +0.3/-0.16,4 +0.2/-0.232 10 +0.5/-0.2450235200 Download CAD file
F80C-v80 +0.3/-0.16,5 +0.2/-0.211,5 18 +0.5/-0.2540458200 Download CAD file
F83C-v83 +0.3/-0.110,5 +0.2/-0.232 18 +0.5/-0.2600444200 Download CAD file
F100C-v100 +0.5/-0.110,5 +0.2/-0.234 22 +0.5/-0.2680815200 Download CAD file

* The forces have been determined at room temperature on a polished plate made of steel (S235JR according to DIN 10 025) with a thickness of 10 mm (1kg~10N). A deviation of up to -10% from the specified value is possible in exceptional cases. In general, the value is exceeded. The type of application (installation situation, temperatures, counter anchors, etc.) sometimes influence the forces enormously. The values given are for orientation purposes. Let our experts advise you.

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