- Operating parts | standard elements
- Clamping levers, tension levers, cam levers
- Grips, knobs
- Pull handles, tubular handles, recessed handles
- Handwheels, crank handles, position indicators
- Quarter-turn locks, edge protection profiles
- Hinges
- Swivel feet, levelling feet
- Tube connectors, profile connectors
- Telescopic slides
- Latches, snap locks, slam latches
- Toggle clamps, power clamps
- Clamping elements
- Spring plungers, indexing plungers, ball lock pins
- Support elements, locating elements, stop elements
- Machine and fixture components
- Joints
- Magnets
- K1404
Magnets raw NdFeB, disc form
- K1405
Magnets raw with hole NdFeB, disc form
- K1406
Magnets raw NdFeB, block form
- K1407
Magnets raw AlNiCo, bar type
- K0545
Magnets deep pot AlNiCo with fitting tolerance
- K0546
Magnets deep pot AlNiCo without fitting tolerance
- K0547
Magnets deep pot with pin AlNiCo
- K0548
Magnets shallow pot hard ferrite
- K0549
Magnets shallow pot with thread hard ferrite
- K1400
Magnets shallow pot with internal thread hard ferrite with stainless-steel housing
- K0550
Magnets shallow pot SmCo
- K0551
Magnets deep pot SmCo
- K1395
Magnets deep pot NdFeB
- K1403
Magnets deep pot with machinable magnetic face NdFeB
- K0552
Magnets deep pot with internal thread NdFeB
- K0553
Magnets shallow pot NdFeB
- K1402
Magnets shallow pot with hook NdFeB
- K0554
Magnets shallow pot with counterbore hard ferrite
- K1399
Magnets shallow pot with counterbore SmCo with stainless-steel housing
- K0555
Magnets shallow pot with countersink hard ferrite
- K1408
Magnets shallow pot with countersink hard ferrite with stainless-steel housing
- K1401
Magnets shallow pot with countersink SmCo
- K1393
Magnets shallow pot with countersink NdFeB
- K0556
Magnets shallow pot with internal thread NdFeB
- K1394
Magnets shallow pot with internal thread hard ferrite
- K0557
Magnets deep pot
- K0558
Magnets shallow pot
- K0559
Magnets button
- K0560
Magnets strong
- K0561
Protective rubber caps for shallow pot magnets
- K0562
Magnets shallow pot with internal thread NdFeB, with rubber protective jacket
- K1396
Magnets with internal thread NdFeB, rectangular, with rubber protective jacket
- K0563
Magnets shallow pot with tapped pin NdFeB, with rubber protective jacket
- K0564
Magnets shallow pot with threaded pin NdFeB, with rubber protective jacket
- K1397
Magnets deep pot with threaded pin NdFeB, rubber magnetic face
- K0565
Magnets shallow pot with through hole NdFeB, with rubber protective jacket
- K1398
Retaining magnets hard ferrite
- Buffer elements
- Level indicators, screw plugs
- Scales, scale rings, level vials
- Material handling
- Tools, workshop supplies
- Hygiene Shield
- Clamping technology
- Special solutions
- Classic products
- Order number, changeover
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Magnets are flexible, easy to remove, non-positive fasteners. They are used e.g. on hatches as a safety unit against accidental opening. They are used in mechanical engineering and plant construction.
Industrial magnets from KIPP |
KIPP offers you a wide range of diverse industrial magnets. A distinction is made between the different types e.g. deep pot magnets, round magnets, retention magnets or raw magnets. Depending on the type, they are particularly heat-resistant, have a high magnetic force or are extra strong permanent magnets. If you cannot find the appropriate magnet in our range, please contact us for an individual special solution. Select the appropriate solution for your application!
Depending on the type of magnet, a distinction can be made between shielded and unshielded systems. In unshielded systems, the magnetic core is exposed on all sides and is not surrounded by any non-magnetic layer. As a result, the magnet can deploy its full magnetic force on all sides. Shielded systems, on the other hand, enclose the magnetic core with a layer of non-magnetic material. In this way, the magnetic force effect can be directed in a specific direction. |
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Properties of industrial magnets from KIPP |
There are various types of industrial magnets. They are made of different materials and have properties that are typical for the respective material. With its wide selection of permanent magnets, KIPP offers products with different temperature stability, magnetic force and corrosion resistance. |
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Description
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Reference to designation
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Weak ---------------------------------- Strong
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Magnetic force
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Magnetic remanence
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Hard ferrite
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AlNiCO
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SmCo
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NdFeB
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Repeatable adsorption
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Retention force
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AlNiCo
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Hard ferrite
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SmCo
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NdFeB
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Mechanical strength
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-
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SmCo
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Hard ferrite
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NdFeB
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AlNiCo
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Corrosion resistance
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-
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NdFeB
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AlNiCo
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SmCo
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Hard ferrite
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Temperature stability
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Material specific Curie point
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NdFeB
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SmCo
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Hard ferrite
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AlNiCo
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Material variants for magnets |
Since each material has certain properties, it is advisable to select the respective magnet according to the application area and use. |
Neodymium Magnets (NdFeB) |
Neodymium-Iron-Boron magnets (NdFeB), or neodymium magnets for short, are currently the strongest permanent magnets available on the market. In addition to their high magnetic force, they are characterised by a high retaining force. The drawbacks of neodymium magnets is their low corrosion resistance and low temperature stability. As a result, neodymium magnets are mainly suited to applications with low temperatures. |
Samarium-Cobalt Magnets (SmCo) |
Samarium-Cobalt (SmCo) magnets consist of a samarium/cobalt alloy. They have the highest magnetic force after neodymium magnets. The retaining force is three to five times higher than that of AlNiCo magnets or hard ferrite magnets. Due to the high corrosion resistance, no separate surface treatment is necessary. However, low mechanical strength means that samarium-cobalt magnets break more easily and are therefore not suitable for applications with high mechanical forces. |
Aluminium-Nickel-Cobalt Magnets (AlNiCo) |
Magnets made of an aluminium-nickel-cobalt alloy (AlNiCo) are characterised by their high temperature stability and the associated heat resistance of up to 450 °C. They also have high mechanical strength, which qualifies them for applications with high mechanical forces. However, it should be noted that the retention forces of AlNiCo magnets are comparatively weak. |
Hard Ferrite Magnets |
Hard ferrite magnets consist of iron oxide and barium carbonate or strontium carbonate. This guarantees an above-average corrosion resistance and high temperature stability. This means they can be exposed to temperatures of up to 200 °C. However, the comparatively low magnetic force and mechanical strength must be taken into account when selecting the application area. |
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Magnets: Types and Shapes |
Raw magnets |
Raw magnets are always an unshielded system. All of these permanent magnet's surfaces exert a magnetic force. This means that raw magnets can be integrated into magnet systems or individual applications such as housings etc. as desired. Raw magnets are used, among other things, in machine tools and mechanical engineering, in aerospace and the automotive industry. KIPP has various types and shapes of raw magnets in its range. Magnets made from Niodymium are: Disc form magnets with hole, Disc form magnets without hole and flat, square Block magnets. The magnets are electro zinc-plated and can be mounted by press-fit or gluing. The models with a hole can also be screwed down. Raw magnets made of neodymium can be used up to a temperature of 80 °C. Raw magnets made from AlNiCo are also available. Included in the range are round bar magnets with untreated surfaces, and button magnets and horseshoe magnets, all painted red. They are characterised by their high temperature range of maximum 450 °C. The surface does not require any finishing due to the good corrosion resistance and they are installed by press-fit or gluing. |
Deep pot magnets |
Deep pot magnets have a core made from a permanent magnetic material. This core is separated from the housing by a non-magnetic material and a magnetic shielded system is created. KIPP deep pot magnets are used in e.g. mechanical engineering and metalworking industries as well as in electrical technology and the automotive industry.
Deep pot magnets with Samarium-Cobalt magnetic cores have a brass housing and are offered with no thread or, as a screw-on type magnet with a internal thread. They are constructed as a sandwich magnet system. That is, two individual permanent magnets with a separating layer in between. To prevent loss of magnetic force due to a magnetic short circuit, these round magnets with a samarium-cobalt core must not be pressed directly into iron. As no demagnetisation occurs, SmCo deep pot magnets are particularly suitable for direct use with spot welding machines. KIPP has round deep pot magnets with a Neodymium magnetic core as magnets with a machined magnetic face and as standard versions without a machined magnetic face in its range. The machined magnetic face enables the deep pot magnet to be customised to your needs. Both models have a brass housing and are also constructed as a sandwich magnet system. Permanent magnets with a solid neodymium core must also never be pressed directly into iron. This will prevent a magnetic short circuit and the associated loss of magnetic force.
For applications where a certain fit tolerance is required, deep pot magnets with an AlNiCo magnetic core and steel housing are offered. They can be used at temperatures of up to 450 °C. Installation is carried out by press-fit, gluing or shrink-fit. |
Shallow pot magnets |
To achieve a shielded system, the magnetic core material is pressed or cast into a housing. There is a non-magnetic barrier placed between the magnet and the housing. Shallow pot magnets from KIPP are used in e.g. mechanical engineering, the automotive industry and metalworking industries.
Shallow pot magnet cores made of samarium cobalt have the advantage of having three to five times the magnetic attractive force of hard ferrite or AlNiCo cores. KIPP offers Samarium-Cobalt-shallow pot magnets as magnets with a countersunk hole and electro zinc-plated steel housings, or as magnets with a counterbore and stainless steel housing. Both models can be used at high temperatures. They are installed by gluing, screwing down, or pressing in.
Shallow pot magnets or flat magnets made of neodymium are available in various designs. With hooks, internal thread, counterbore, threaded pin or shallow pot magnet with tapped bush. Thanks to the permanent magnetic material neodymium, the magnetic force is 10-20 % higher than that of SmCo magnets.
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Magnets with protective rubber jackets |
To protect sensitive surfaces, KIPP has magnets with a protective rubber sheath in its range. The protective rubber jacket is made of TPE or synthetic rubber. Areas of application include machine construction and electrical engineering.
KIPP sells rubberised neodymium magnets from the shallow pot magnet group. Available are round magnets with holes, internal threads, tapped bushes and threaded pins. In the flat square version there are magnets with internal thread and rubber protective jacket.
Deep pot magnets with rubberised magnetic faces are also available. Due to the threaded pin, this model is a magnet to screw on and has a stainless steel housing.
To retrofit existing shallow pot magnets, protective rubber caps can also be subsequently acquired.
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Retaining magnets |
Round retaining magnets from KIPP consist of a magnetic hard ferrite core surrounded by an ABS plastic jacket. Due to their structure, retaining magnets are particularly suitable for use on thin plates such as flipcharts, whiteboards or pinboards. |
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Availability Here you can check item's availability. |
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