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SAV 531.01
EN
3 TECHNICAL SPECIFICATIONS
Holding force
The rated holding forces in the “Technical specifications” table are based on a steel 1.0037 (S235 JR) material with
a machined contact surface and 100 mm thickness.
The actual holding force depends on the following factors and must be determined before each use!
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Air gap
between the magnet and workpiece caused by dirt, paper, burrs, damage, paint, etc. (refer to the
capacity diagram on page 41).
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Material thickness
of the load. The thinner the load, the lower the lifting capacity (refer to the capacity table
on page 40).
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Length and width of the load.
The lifting capacity is influenced by the sheet thickness. A sheet has to be at least as long as the magnet.
Minimum size of the sheet according to the 1st column in the table (see page 40) under “Lifting capacity”. For
smaller sheet sizes, reduces the lifting capacity according to the 2nd column.
If sheets are too large, however, they will sag, which produces an air gap between the magnet and the sheet.
This peel-off effect reduces the lifting capacity and limits the maximum sheet size. Use several magnets mounted
on a crossbeam, if necessary.
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Material type/composition
The lifting magnets are intended for transporting ferromagnetic flat materials and round materials. A high alloy
percentage results in a low lifting capacity.
All stated rated holding forces refer to steel 1.0037 with 100 %. The are reduced to 90 % for cast steel, to
50 % for stainless steel (V2A 430F) and to 10 % for nickel (refer to the material-dependent reduction factors on
page 42). For other materials, please consult the supplier.
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The workpiece always has to fully cover the pole surfaces of the magnet and always with the same mass.
Summary of Contents for NEO 1200
Page 55: ......