SU1580237A1 - Method of nondestructive inspection of physico-mechanical parameters of ferromagnetic articles - Google Patents

Abstract

The invention relates to non-destructive methods for monitoring and sorting products, in particular permanent magnet castings with crystalline anisotropy. The purpose of the invention is to improve the accuracy of control of permanent magnets with directional solidification. For this, the casting of the magnet is magnetized to a technical saturation and the residual magnetic flux is measured in two directions. Moreover, initially magnetization is carried out in the direction of crystal growth, and the second magnetization is carried out at an angle of 45 or 90 ° C to the original direction, respectively, for cylindrical and rectangular blanks. 2 hp f-ly, 2 tab.

Description

The invention relates to nondestructive methods for monitoring and sorting products, in particular permanent magnet castings with crystalline anisotropy.

The purpose of the invention is to improve the accuracy of control of cast permanent magnet blanks with directional solidification due to the choice of a specific direction of magnetization.

Cast permanent magnets with crystalline anisotropy, cooled from high temperatures, without applying a magnetic field, have different demagnetization curves in the direction of the axes of easy and difficult magnetization. This difference is the greater, the more perfect the column and single-crystal structure. The presence of equiaxed and parasitic regions reduces the difference in

properties and magnetic properties of the finished product.

The most convenient, quickly and accurately measured residual magnetic flux, the angle between the two measured directions is dictated by the product configuration: 45 ° for cylindrical samples and 90 ° for parallelepipeds.

The method is carried out as follows.

After knocking out the magnet after casting, cleaning and sharpening the feeder, remove a small metal layer to obtain a certain size. Later, the magnet billet is placed in an inductor, magnetized to saturation and the magnetic flux is measured in the direction of crystal growth, Poche et it D; Usually in the same inductor, the magnet poroshi Tsash.

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on the 45th or 90th relative to the original direction and re-magnetized. and measuring the magnetic flux. The suitability of a magnet is judged by the relative difference in the measured fluxes.

Example 1. A billet of a cylindrical magnet with a diametrical columnar structure made of an UNDK35T5BA alloy is preliminarily polished over the outer diameter. The preform is then magnetized in the inductor in the direction of crystal growth and the magnetic flux is measured. The billet in the same inductor is rotated by 45 ° and the magnetization is re-magnetized and the magnetic flux is measured. Next, the workpiece passes through the t-full technological cycle of processing, during which the structure and magnetic properties are checked. The data are summarized in table. one.

Example 2. The billet of a magnet in the form of a parallelepiped of an UN14DK25BA alloy is magnetized and the magnetic flux is measured in the direction of crystal growth and at an angle of 90 ° to the original. Further, the blanks, as in Example 1, pass through a complete technological nickel. The results are summarized in table. 2

Due to the fact that the flow measurement is carried out in sections of the workpiece of the magnet, having different values, in table. 2 shows the flux values Br and ff per unit area.

The use of the invention of cast permanent magnets allows

sorting magnets in the early stages

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their manufacturers, which allows to reduce the laboriousness of their production, as well as to find and eliminate the causes contributing to the production of defective magnets.

Claims (3)

1. A method of non-destructive testing of the physicomechanical parameters of ferromagnetic products, namely, that the product is magnetized in two directions, the parameter of the residual magnetic field in these directions is measured and the physicomechanical parameters of the products are judged by the ratio of the measured parameter values t is due to the fact that, in order to increase the control accuracy of cast permanent magnet billets with directional solidification, the magnetization in two directions is carried out to saturation, as one of ION selected growth direction preform magnet crystals and the residual magnetic flux is used as the measured parameter. 2. A method according to claim 1, characterized in that, in order to increase the accuracy of control of cylindrical billets, select the second direction of matting at an angle of 45 ° to the direction of crystal growth., 3. The method according to claim 1, characterized in that, in order to increase the accuracy of control of blanks in the shape of a parallelepiped, choose the second direction of magnetization at an angle of 90 ° stallov. towards growth direction krieg Table 1 Note. Magnet 8ЕА.614.131.02. Values of required properties: f, / 8,3-, Ht 104 kA / m. f f Magnets are suitable when -.- - l 0.15. t table 2