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Magnetic holding rail 230 x 50 x 50

Magnetic holding rail 230 x 50 x 50Magnetic holding rail 230 x 50 x 50€118.80

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1 pcs. €118.80 €146.12
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Performance parameters

Manufacturer

Enes Magnesy

Length

230 [mm]

Width

50 [mm]

Height

50 [mm]

Magnet type

Neodymium

Maximal hoisting capacity

500 [kg]

Coating

Zinc (Zn)

Maximum working temperature

≤ 80 [°C]

Weight

3.47 [kg]

The maximum pull force: ~500 [kg]

Magnetic holding rail is used for secure of molds on vibro-tables during production of concrete elements.

The pull force given refers to hoisting capacity measured in optimal conditions, by using as a backing plate a sheet made of low-carbon steel, 10 [mm] thick, of smooth surface and with the force acting perpendicularly, in room temperature.

Notice: the pull force given should be treated as only a comparative value. An actual pull force depends on the following factors:

  • air gap (a distance) between holding rail and an attracted element
  • material, of which an attracted element is made (the higher carbon proportion in steel, the smaller pull force)
  • surface of an attracted element (the smoother the surface, bigger the pull force)
  • direction of acting of detaching force (the biggest pull force is obtained with perpendicular acting of detaching force)
  • thickness of an attracted element (the element cannot be too thin, because in such case part of magnetic flux is not used for closing of a magnetic circuit)
  • working temperature.

We generally recommend individual checking of the holding rail in any specific working conditions.

Weight: ~3,5 [kg]

The maximum pull force: ~500 [kg]

Magnetic holding rail is used for secure of molds on vibro-tables during production of concrete elements.

The pull force given refers to hoisting capacity measured in optimal conditions, by using as a backing plate a sheet made of low-carbon steel, 10 [mm] thick, of smooth surface and with the force acting perpendicularly, in room temperature.

Notice: the pull force given should be treated as only a comparative value. An actual pull force depends on the following factors:

  • air gap (a distance) between holding rail and an attracted element
  • material, of which an attracted element is made (the higher carbon proportion in steel, the smaller pull force)
  • surface of an attracted element (the smoother the surface, bigger the pull force)
  • direction of acting of detaching force (the biggest pull force is obtained with perpendicular acting of detaching force)
  • thickness of an attracted element (the element cannot be too thin, because in such case part of magnetic flux is not used for closing of a magnetic circuit)
  • working temperature.

We generally recommend individual checking of the holding rail in any specific working conditions.

Weight: ~3,5 [kg]

uml230x50x50
Specific References