SU749910A1 - Method of thermomagnetic treatment of ferromagnetic materials - Google Patents

Description

The invention relates to the heat treatment of ferromagnetic materials, in particular, to the thermomagnetic processing of magnetically soft materials, such as electrical steel, iron alloys with nickel, etc., used in electrical engineering and instrument making. The known method of thermomagnetic treatment of ferromagnetic materials, including annealing in a non-oxidizing atmosphere and subsequent thermomagnetic treatment in a rotating magnetic field. The disadvantage of this thermomagnetic treatment method is the impossibility of obtaining a three-dimensional product completely isotropic in a magnetic relation, since the nature of the magnetization of the material depends on the orientation of the magnetizing field relative to the direction of the induced plane is easy of the magnetization. The closest in technical essence and the achieved effect to the proposed is a method of thermomagnetic treatment in a field, rotating in two mutually orthogonal planes, at a temperature of 25 hours 2. The disadvantages of this method of thermomagnetic treatment include the low isotropy of the properties of the processed products and the long duration of treatment due to the low processing temperature. The purpose of the invention is to increase the isotropy of the magnetic properties of products and reduce the duration of thermomagnetic processing. This is achieved by the fact that thermomagnetic treatment is carried out in a constant or alternating magnetic field, rotating in two mutually orthogonal planes, at temperatures not lower than the Curie temperature of the material, and cooling is carried out at a rate of 1-50 C / min. The need for thermomagnetic treatment at temperatures not

The Curie temperature is lower because the processes occurring during thermomagnetic processing are determined by the diffusion rate, which, in turn, increases with increasing heat treatment temperature. The validity of thermomagnetic processing at temperatures not lower than the Curie temperature of Mageraapa is due to the presence of ferromagnetic ordering in the material at the Curie temperature and slightly higher than it. In addition, cooling the product in a magnetic field at a speed of 1-50 C / min gives additional time to complete the thermomagnetic processing. The magnitude of the magnetic field during thermomagnetic processing is chosen taking into account the demagnetizing factor and should provide for magnetization of products by saturation along any crystallographic axis, and the speed of rotation of the magnetic field should not exceed the speed of magnetization reversal.

The proposed method of thermomagnetic processing is implemented as follows.

Example. Products made of Fe-Ni alloy are placed in a magnetic field with a strength of 3 OOO e, rotating in

Thermomagnetic treatment mode

Way

.№

1.43 ° G, 25 hours in a field rotating in the same plane.

about. -

2.430 C, 25 hours in a field, rotating in two

I mutually orthogonal planes

465 C, 10 hours in a field, rotating in two mutually Orthogonal planes, cooling at a rate of 50 ° C / min

749910

two mutually orthogonal planes, heated to the Curie temperature, incubated for 1 hour and cooled to room temperature at a speed of 25 C / min, after which the magnetic field is turned off ...

As a result of this thermomagnetic treatment, the product has high magnetic properties and is isotropic magnetically.

The diagram shows the angular dependence of the mechanical moment of a ball-shaped product measured in the plane of thermomagnetic treatment in a field rotating in a single plane orthogonal to the plane of processing, and after thermomagnetic processing in a field rotating in two mutually orthogonal planes.

As can be seen from the traits, as a result of thermomagnetic treatment in a field rotating in the same plane, in the plane of rotation of the field, no anisotropy is induced. Measurements in the orthogonal plane indicate the presence of anisotropy. The table shows the values of the constant of the induced magnetic anisotropy after thermomagnetic treatment according to the known and proposed methods.

K, erg / cm

8 35О 500

ABOUT

About 465 C, 1 hour in a field rotating in two mutually orthogonal planes, cooling to 15 ° C at a speed of 1 C / min, then in air about 465 C, 1 hour in a field rotating in two mutually orthogonal planes, cooling to 150 C at a speed of 25, then in the air

Claims (1)

Claim Method of thermomagnetic processing of ferromagnetic materials, including annealing in a magnetic field rotating in two mutually orthogonal planes, characterized in that, in order to increase the isotropy of magnetic properties and reduce the processing time, annealing is carried out at a temperature not lower than the Curie temperature of the material for 1-10 hour, and cooling to room temperature is carried out in a magnetic field rotating in two mutually orthogonal planes at a speed of 1-50 ° C / min.