SU1476372A1 - Method for testing ferromagnetic material structure - Google Patents

Abstract

The invention relates to non-destructive testing, i.e. the study of the structure of the material, namely, to determine the grade of grain of ferromagnetic materials using ultrasound. The aim of the invention is to increase the reliability when monitoring the grade of a grain of a ferromagnetic material. This is achieved by simplifying the control procedure, as well as eliminating the errors introduced by the controlled object. Material 6 is magnetized with the help of coils 2, excitation of an EMA transducer 1 is excited by ultrasonic waves, the minimum amplitude of the signal is recorded by the receiving transducer 3 and the corresponding magnetic field value, these values are compared with similar values on previously obtained reference samples. grade grain controlled ferromagnetic material 6. 1 Il.

Description

The invention relates to the study of the chemical and physical properties of substances, namely to determine the grain score of ferromagnetic materials using ultrasound. 5

The purpose of the invention is to increase the reliability when controlling the grain score of a ferromagnetic material by simplifying the methodology for monitoring and eliminating errors introduced by the controlled object: the presence of lubricant, emulsion on the surface of the control object.

The drawing shows a block diagram of a device that implements the proposed method.

The device contains a radiating electromagnetic-acoustic-magnetic transducer 1, magnetization coils 2 with a continuously changing magnetic field, a receiving electromagnetic-acoustic transducer 3, an amplifier 4, an indicator 5 and controlled material 6 placed between the coils 2 and the transducers 1 and 3.

The method is implemented as follows.

The controlled material 6 is magnetized by a constant magnetic field by means of coils 2, periodic ultrasonic pulses are excited in the material using transducer 1, the signal is recorded by receiving transducer 3, this signal is amplified in amplifier 4 and the signal minimum is determined depending on the magnitude of the applied magnetic of the field created by the coils 2, and the value of the field is determined by the position of this minimum amplitude, that is, the dependence of the signal amplitude on the field value is determined, which 35 is compared with According to the comparison results, the dependences obtained on the reference samples judge the controlled parameters of the material 6, i.e., the grain score of the controlled ferromagnetic material 6.

The proposed method allows using simple means to determine the grain score. In addition, the advantage of this method is the ability to register a minimum of the electromagnetic-acoustic signal, which is much simpler than measuring the attenuation decrement at two frequencies in the known method.

Claims (1)

Claim The method of controlling the structure of ferromagnetic materials, which consists in the fact that the material is magnetized by a constant magnetic field, excites acoustic oscillations in the material by means of a radiating electromagnetic-acoustic transducer, registers the signal with a receiving electromagnetic-acoustic transducer, removes the dependence of the amplitude of this signal on the magnitude of the magnetizing field, compare it with earlier the dependences obtained on the reference samples and by the results of the comparison are judged on the controlled parameters material, characterized in that, in order to increase the reliability in monitoring the grain score of a ferromagnetic material, the minimum of an electromagnetic-acoustic signal is determined depending on the magnitude of the magnetizing field, the corresponding field value is fixed and the values obtained are used for comparison with previously obtained dependencies.