Ferromagnetic part for an electromagnetic contact, its manufacturing process and its use

The invention claimed is: 1. A method for manufacturing a ferromagnetic part for an electromagnetic contactor, the method comprising the following successive steps: a step a) of supplying a soft ferromagnetic metal blank part; and a step b) of electroless nickel plating at least one section of the blank part in order to obtain the ferromagnetic part, the section of which is surface coated with a nickel surface layer, with the obtained ferromagnetic part comprising the soft ferromagnetic metal, which, for said at least one electroless nickel plated section, is disposed under the nickel surface layer. 2. The method for manufacturing a ferromagnetic part according to claim 1 , wherein the step b) comprises immersing the blank part in a bath, the bath comprising an aqueous solution of nickel oxide and a reducing agent, the blank part being stirred in the bath during immersion in order to be coated by the nickel surface layer over at least 95% of its surface area. 3. The method for manufacturing a ferromagnetic part according to claim 1 , wherein the method comprises, after the step b), a step c) of magnetically annealing the ferromagnetic part coated during the step b), so that the ferromagnetic part obtained on completion of the step c) comprises: the nickel surface layer on the outer surface; the annealed soft ferromagnetic metal under the nickel surface layer for said at least one section electroless nickel plated during the step b); and a nickel layer diffused in the soft ferromagnetic metal due to the magnetic annealing, the diffused nickel layer connecting the nickel surface layer and the annealed soft ferromagnetic metal. 4. The method for manufacturing a ferromagnetic part according to claim 3 , wherein the step c) comprises subjecting the ferromagnetic part, coated during the step b), to a temperature between 800° C. and 850° C., for a period of between 3 hours and 5 hours. 5. The method for manufacturing a ferromagnetic part according to claim 1 , wherein the soft ferromagnetic material is an iron-carbon alloy with a carbon content of less than 0.03% by weight. 6. The method for manufacturing an electromagnetic contactor, the electromagnetic contactor comprising: an electromagnetic actuator, comprising at least one coil, a movable ferromagnetic section and a fixed ferromagnetic section, the movable and fixed ferromagnetic sections being configured to switch between a position remote from one another and a contact position; and at least one pair of power contacts, which is activated by the movable ferromagnetic section during the switch between the remote position and the contact position, said at least one pair of power contacts then being switched between a closed configuration and an open configuration; the method for manufacturing the electromagnetic contactor comprising a step involving the integration of at least one ferromagnetic part, obtained using the method for manufacturing a ferromagnetic part according to claim 1 , in at least one of the movable and fixed ferromagnetic sections. 7. A ferromagnetic part for an electromagnetic contactor, the ferromagnetic part being obtained using a method according to claim 1 , the ferromagnetic part comprising at least one section that comprises: a nickel surface layer on the surface that is obtained by a step of electroless nickel plating; and a soft ferromagnetic metal coated with the nickel surface layer. 8. The ferromagnetic part according to claim 7 , wherein the nickel surface layer is between 3 and 50 μm thick. 9. An electromagnetic contactor comprising: an electromagnetic actuator, comprising at least one coil, one movable ferromagnetic section and one fixed ferromagnetic section, the movable and fixed ferromagnetic sections being configured to switch between a position remote from one another and a contact position, at least one of the movable and fixed ferromagnetic sections comprising a ferromagnetic part according to claim 7 ; and at least one pair of power contacts, which is activated by the movable ferromagnetic section during the switch between the remote position and the contact position, said at least one pair of power contacts then being switched between a closed configuration and an open configuration. 10. A method of using a ferromagnetic part according to claim 7 , the ferromagnetic part being used as part of the movable ferromagnetic section or of the fixed ferromagnetic section of the electromagnetic actuator. 11. The method for manufacturing a ferromagnetic part according to claim 2 , wherein the reducing agent is sodium hydrophosphite. 12. The method for manufacturing a ferromagnetic part according to claim 2 , wherein the blank part is stirred in the bath during immersion in order to be coated by the nickel surface layer over its entire surface area. 13. The ferromagnetic part according to claim 7 , wherein the nickel surface layer is between 5 and 25 μm thick.