SU949483A1 - Device for determination of ferromagnetic material crystallographic texture dispersion degree - Google Patents

Description

The invention relates to the testing of the physical properties of materials by magnetic methods and can be used in the metallurgical and electrical industries.

Devices are known for determining, by a non-destructive method, the texture of ferromagnetic sheet materials, based on the measurement of the component of the magnetization of a material during rotation of a magnetic field in the plane of the sheet.

However, when using devices, one can only qualitatively judge the presence of texture in the material.

Closest to the invention is a device for determining the degree of dispersion of the crystallographic texture of ferromagnetic materials, comprising a sensor connected to the measuring system, made in the form of a magnetic system with a measuring coil, placed between the poles of the magnetic system. The sensor is connected to a turning mechanism. When the sensor rotates, the poles of the permanent magnets create a rotating field in the plane of the sheet of ferromagnetic material, and the measuring coil rotating together

with the poles, it measures the normal component of the magnetization of the material. The signal of the measuring coil of the sensor makes it possible to estimate the degree of dispersion of the crystallographic texture in the plane of the sheet.

The disadvantage of this device is that it does not allow to determine the degree of scattering of the crystallographic texture in the direction perpendicular to the sheet surface, as well as the presence of reducing the accuracy of measurement of interference in the measured signal coming into the measuring unit from the collector rings.

The purpose of the invention is to increase the sensitivity of scattering the crystallographic texture in the direction perpendicular to the surface of the material, and to simplify the design of the device.

This goal is achieved by the fact that in a device for determining the degree of dispersion of the crystallographic texture of ferromagnetic materials containing sugs. sensor connected to the measuring system, made in the form of a magnetic system with a measuring coil placed between the poles

the magnetic system, the latter, which creates a magnetic field rotating in the plane of the ferromagnet, is made in the form of a stator of a three-phase asynchronous motor, the magnetic poles of which are brought out of the end of the stator, and the axis of the measuring coil coincides with the axis of the stator.

The drawing shows a sensor to be connected to a measuring system.

The magnetic system of the device is a stator of an asynchronous three-phase electric motor 1, the poles 2 of which are led outside the end of the stator. Between the ends of the poles 3, which are located at the end of the stator, the measuring coil 4 is placed so that the axis of the coil coincides with the axis of the stator. Magnetic system of devices placed in the housing 5.

A magnetic system with a measuring coil form a sensor that is connected to a measuring system (not shown).

The device works as follows.

The magnetic system, placed in the housing 5, is mounted on the studied sheet of ferromagnetic material 6 so that the elongated ends of the poles

The scanner is adjacent to the surface of the Sheet 6. The three-phase voltage is applied to the stator windings (not shown). A rotating magnetic flux arises between the poles 2 of the stator, closes through the elongated ends of the poles 3, derived

for the end face of the stator and the material studied b. In this case, in the area of the material adjacent to the elongated ends of the poles 3, a rotating magnetic field is created, and in the measuring coil

4 an emf is given, the value of which characterizes the degree of diffusion of the crystallographic texture relative to the surface of the flipper. The signal from the measuring coil is fed to the measuring system, where it is processed and analyzed.

The use of the device expands the possibilities of magnetic texture analysis, increases the accuracy and reliability of control of the texture of materials.

The absence of moving parts improves the performance and immunity of the device.

The device allows you to quickly evaluate the nature and degree of texture dispersion, which is very important when monitoring and adjusting the rolling technology and continuous annealing of rolled textured ferromagnetic materials, for example, anisotropic electrical steels. Shortening the time required for adjusting the technology, ensuring the possibility of non-elapsing texture control under production conditions allows us to improve product quality. These advantages ensure the long-term viability and technical and economic efficiency of using the proposed device

Claims (2)

1. USSR author's certificate number 57317, cl. G 01 N 27/72, 1939. 2. USSR Author's Certificate No. 473134, cl. G 01 N 27/72, 1975 (prototype).