UA21513U - Method for determination of structures inhomogeneity of non-metal material - Google Patents

Abstract

Method for determination of structural inhomogeneity of non-metal material relates to methods for investigation of materials, in particular to the method for determination of structural inhomogeneity of non-metal materials, and can be used for determination of structural inhomogeneity of non-metal materials that comes to existence in course of technological process of making material or as result of effect of operational factors.

Description

Description of the invention

The proposed useful model refers to the methods of materials research, and more precisely, to method 2 of determining the structural heterogeneity of non-metallic materials. The proposed method can be used, in particular, to determine the structural heterogeneity of non-metallic materials, which occurs during the technological process of manufacturing the material or as a result of operational factors.

The closest to the proposed one, in terms of the number of essential features, is the method of determining the structural heterogeneity of the investigated object from a non-metallic material, which includes the operations of installing 70 the investigated object on the experimental site of the measuring installation, generating a sounding wave that acts on the object, and based on the change in the parameters of the sounding wave in the material of the object under investigation, they draw a conclusion about the structural heterogeneity of the object under investigation from non-metallic material Yu.B. Gandole,

Sh.P. Yavale, S.Sh. Javale Installation for ultrasonic measurements. Electronic magazine "Technical acoustics", Er://eyaogo, 2005, - 37Y. In the mentioned method, ultrasonic waves are used to control the structural inhomogeneity of 12 materials (Y.B. Gandole, Sh.P. Yavale, S.Sh. Yavale. Installation for ultrasonic measurements. Electronic journal "Technical Acoustics", pEr://ea.ogo , 2005, - 37).

The disadvantage of the described method is its considerable labor-intensiveness, which consists in the need for a rather complex operation of adjusting the directionality of the probing wave in the material under study, as well as calibrating the reflected signal according to test models of defects.

The proposed useful model is based on the task of creating a less time-consuming method of determining the structural heterogeneity of the investigated object from a non-metallic material. The task is solved by creating conditions for using a secondary electromagnetic field of eddy current origin as a probing wave.

The proposed, as well as the known method of determining the structural heterogeneity of the object under investigation from 29 non-metallic materials, includes the operations of installing the object under investigation on the experimental site in the measuring unit, generating a probing wave that acts on the object, and by changing the parameters of the probing wave in the material of the object under investigation draw a conclusion about the structural inhomogeneity of the object under investigation from a non-metallic material, and according to the proposal, the object under investigation is installed on a metal screen, an electromagnetic field is generated in the direction of the metal screen, a secondary electromagnetic field is used as a probing wave of eddy current origin, which occurs in a metal screen during its irradiation with an electromagnetic field, as a result of the interaction of the sounding wave with the object under investigation, the amplitude-phase characteristics of the latter are determined at the points o located on its open surface, and according to the values of the amplitude-phase characteristics at different points - where they draw a conclusion about the structural heterogeneity of the object under study.

The use of a secondary electromagnetic field of eddy current origin as a probing wave allows to significantly reduce the complexity of the method, as it does not require, in particular, the operation of adjusting the directionality of the probing wave in the material under study.

Installation of the investigated object on the experimental site of the measuring device on the metal screen is necessary to create a secondary electromagnetic field of eddy current origin in the metal of the screen, in the Z zone of which the non-metallic object under investigation should be located. c The essence of the proposed method is explained with the help of a schematic drawing, which is shown

From" the investigated object 1 of non-metallic material, installed on the metal screen 2 at the experimental site of the measuring installation. The measuring unit is equipped with an emitting-receiving sensor C of the electromagnetic field, the probe of which is directed towards the surface of the object under investigation 1. The sensor C is connected to the input of the amplifier 4, from the output of which the informative electrical signal enters the indicator o device 5. Indicator device 5 is intended for recording the measured values of the amplitude-phase characteristics at various points of the object under study 1. The input of the sensor C is connected to the output of the electromagnetic field generator 6. i-th As a emitting-receiving sensor of the electromagnetic field, an overhead coil -k 70 is used inductance of the oscillating circuit of the autogenerator. A DC amplifier was used as an amplifier 4 of the informative electrical signal. Indicator device 5 is an analog-to-digital converter built into a personal computer. High-frequency is used as an electromagnetic field generator 6

Y C-generator.

Example. The studied object 1 made of non-metallic material (STL-10 brand sieve) was installed on 29 metal screen 2 in the experimental area of the measuring installation. The electromagnetic field generator с b was turned on, which created an electromagnetic field, which was directed to screen 2 with the help of an emitting-receiving sensor Z. At the same time, metal screen 2 became a source of a secondary electromagnetic field of eddy current origin, the amplitude and phase characteristics of which changed depending on the degree of heterogeneity of the non-metallic zone of the material of the investigated object 1, as a structural layer, in the vicinity of the location 60 of the emitting-receiving sensor C on the open surface of the investigated object. Based on the value of the amplitude-phase characteristics at different points, a conclusion was drawn regarding the structural heterogeneity of the object under study 1.

Claims (1)

65 Formula of the invention The method of determining the structural inhomogeneity of a non-metallic material, which includes the operations of installing the object under investigation on the experimental site of the measuring installation, generating a sounding wave that acts on the object, and based on the change in the parameters of the sounding wave in the material of the object under investigation, a conclusion is drawn about the structural inhomogeneity of the object under investigation of an object made of non-metallic material, which differs in that the investigated object is placed on a metal screen, an electromagnetic field is generated in the direction of the metal screen, a secondary electromagnetic field of eddy current origin is used as a probing wave, which arises in the metal screen during its irradiation with an electromagnetic field , as a result of 70 interactions of the probing wave with the object under investigation, the amplitude-phase characteristics of the latter are determined at the points located on its open surface, and based on the values of the amplitude-phase characteristics at different points, a conclusion is drawn regarding the structural heterogeneity unity of the researched object. that 2 (ze) "- IF) "- p - and? ime) - 1 - 70 syu» 60 b5