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Offshore / energy (magnets)

Permanent magnets are widely used in the offshore and renewable energy industry. The characteristics of permanent magnets are frequently a good match for the often complex constructions and environments in which these systems must operate.

The knowledge that Goudsmit has concerning the quality of materials and the applicability of magnetism are of great importance to our customers in the wind energy sector. Only with components that fully satisfy the strict requirements for dimensions and functionality – thoroughly tested by our own quality engineers – can synergistic interoperation of all the elements be guaranteed.

permanent offshore magnets


Neodymium magnets (rare earth)

Neodymium-Ferro-Boron (rare earth) magnets are delivered by Goudsmit under the brand name Neoflux®. It is the most powerful magnet, with a very high energy product.

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Samarium-Cobalt magnets (SmCo)

Samarium-Cobalt (SmCo) magnets have excellent magnetic characteristics, a low temperature coëfficiënt and high stability.

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AlNiCo magnets

AlNiCo magnets are made of Aluminium, Nickel and Cobalt. Most AlNiCo magnets are cast. This can take place in complex forms.

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Ferrite magnets

Ferrite magnets or ceramic magnets are the most used magnets. The applications of ferrite magnets are very broad.

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Plastic-bonded neodymium magnets

Plastic bonded neodymium magnets can be manufactured in complex forms by means of pressing or extruding.

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Neodymium (NdFeB) pot magnets

Neodymium pot magnets are the strongest pot magnets in our range. Corrosion protection of the product is ensured by a coating of nickel, zinc or santoprene.

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Samarium-Cobalt (SmCo) pot magnets

Samarium-cobalt (SmCo) pot magnets offer the unique combination of high magnetic force and high operating temperature.

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Ultrasonic welding of magnets

Ultrasonic welding is a means to encapsulate magnets or provide a casing. It is a welding technique in which objects are joined using high-frequency ultrasonic acoustic vibrations.

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Gluing magnets

Goudsmit regularly uses adhesives for product assembly. We know exactly how much to use and the best curing process, both of which are essential to ensure the product functions correctly.

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Overmoulding of magnets

Magnets are overmoulded when they must be completely covered for environmental reasons. This is an excellent technique for securely assembling parts.

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Injection moulding of magnets

Injection moulding is usually used to join magnets and plastics without gluing. This is a technically advanced solution that requires precision moulds and magnets. Goudsmit has what it takes.

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Assembling magnets mechanically

Press fits and screws are some non-risky methods for assembling magnetic systems. Mechanical assembly is sometimes preferable, because it is easy to test and inspect.

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AlNiCo pot magnets

AlNiCo pot magnets have a very high application temperature. The housing is steel, with a non-magnetizable material in between.

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Ferrite pot magnets

Ferrite or ceramic pot magnets are fitted with a steel pot that provides shielding from the magnetic field. The minimal installation height offers many constructive advantages.

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Round electromagnets are switchable. They serve for picking up, positioning or holding products.

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Optical 3D Scanner

With the optical 3D scanner the full geometry of an object can be measured, analysed and recorded with perfect accuracy.

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Using the permagraph we determine the exact magnetic properties and compare them to the required specifications.

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3D flux meter

Ideally, the border runs exactly between the north and south poles and perpendicular to the north-south axis. With the 3D fluxmeter we measure the actual angular deviation.

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