- Out-of-Stock
Manufacturer
Enes Magnesy
Length
167 [mm]
Width
87 [mm]
Height
65 [mm]
overall height together with eye
430 [mm]
Magnet type
Neodymium
Maximal hoisting capacity
400 [kg]
Magnetic field in geometrical center of the magnetic pole surface
0,4 [T]
Maximum working temperature
≤ 80 [°C]
Housing
stainless steel, AISI 304 / EN 1.4301, approved for contact with food
Waterproof
class IP67
With the eye
yes
Weight
8.1 [kg]
- air gap (a distance) between holding magnet 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.
The maximum pull force: ~400 [kg]
Holding magnets for galvanizing plant are used for holding steel elements during the electroplating work. Thanks to a relatively high pull force, it is ideal for securely hold both small and large and heavy elements. It also may be used to move small steel details from one place to another. The solid construction ensures long-term use. The magnet for the galvanizing has a waterproof housing made of acid-proof steel.
This holding magnet is waterproof closed in a housing made of acid-proof steel. In this way the magnet is not exposed to impacts or contact with chemicals.
Magnetic field on surface of the magnetic pole is ~0,400 [T].
Magnetic field in the center of surface between the magnetic poles (maximum) is ~0,640 [T].
In the holding magnet sintered neodymium magnets (NdFeB) were used. The maximum working temperature for holding magnets involving neodymium magnets is 80o[C].
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:
We generally recommend individual checking of the holding magnet in any specific working conditions.
Weight of the holding magnet: ~8,1 [kg]
The maximum pull force: ~400 [kg]
Holding magnets for galvanizing plant are used for holding steel elements during the electroplating work. Thanks to a relatively high pull force, it is ideal for securely hold both small and large and heavy elements. It also may be used to move small steel details from one place to another. The solid construction ensures long-term use. The magnet for the galvanizing has a waterproof housing made of acid-proof steel.
This holding magnet is waterproof closed in a housing made of acid-proof steel. In this way the magnet is not exposed to impacts or contact with chemicals.
Magnetic field on surface of the magnetic pole is ~0,400 [T].
Magnetic field in the center of surface between the magnetic poles (maximum) is ~0,640 [T].
In the holding magnet sintered neodymium magnets (NdFeB) were used. The maximum working temperature for holding magnets involving neodymium magnets is 80o[C].
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 magnet 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 magnet in any specific working conditions.
Weight of the holding magnet: ~8,1 [kg]