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Magnetic parts
Magnetic parts
High magnetic capabilities
The homogeneity and isotropy resulting from powder metallurgy on the products allows them to have higher magnetic capacities than parts made in a conventional way. Sintering, which is an integral part of the process, allows, with the appropriate choice of parameters, to favour the most appropriate crystalline structure for good magnetic behaviour.
The homogeneity and isotropy resulting from powder metallurgy on the products allows them to have higher magnetic capacities than parts made in a conventional way. Sintering, which is an integral part of the process, allows, with the appropriate choice of parameters, to favour the most appropriate crystalline structure for good magnetic behaviour.
Geometry
The shape of a part made with the Scanpac® process is given by the compression tool, a more flexible and economical solution compared to a thin sheet metal part.
Modular composition
Improving the magnetic performance of an iron-based electromagnet often involves enriching the ferritic structure with complementary materials (silicon, phosphorus, cobalt, etc.) This enrichment, which is only possible at the margin with traditional metallurgical processes, can be achieved in powder form with, for example, Fe-Si 6% compositions already available.
Improving the magnetic performance of an iron-based electromagnet often involves enriching the ferritic structure with complementary materials (silicon, phosphorus, cobalt, etc.) This enrichment, which is only possible at the margin with traditional metallurgical processes, can be achieved in powder form with, for example, Fe-Si 6% compositions already available.
Density
Parts made with the Scanpac® process are highly dense (>99%).
