RU1790744C - Method of checking integrity of item parts - Google Patents

Abstract

The invention relates to non-destructive testing of the integrity of product elements with a working medium and can be used to control products at elevated operating temperatures. The purpose of the invention is the expansion of the scope of the method is achieved by monitoring products at temperatures above the Curie point. For this, in the control method, which consists in applying a layer of indicator material on the surface of the element to be monitored, the product is placed in a magnetic field, electromagnetic transducers are placed along the product, the working medium is passed through the product elements and the presence of the EMF signal is continuously monitored, by which judge about the beginning of the destruction of the integrity of the elements, and the magnitude of the signals about the dynamics of the violation of the integrity of the elements of the product, the product is placed in a constant magnetic field, and as an indicator non-ferromagnetic electrically conductive material, 2 ill. (L C

Description

The invention relates to the field of development of methods for monitoring the integrity of product elements and can be used in monitoring products at elevated operating temperatures.

A known method for monitoring the integrity of the elements of products, in which the product is filled with a working medium and is judged to violate the integrity of the elements of the product during crimping by determining the state of the parameters of the working environment in the product, is an analogue of the invention. The disadvantage of this method is the ability to control only in the final stage of integrity violation, i.e. in the presence of a through defect in the product.

A known method for monitoring the integrity of product elements using a capacitor in the electrode monitoring zone, from the signals from which the integrity of the product elements is judged. The disadvantage of this method is due to technological difficulties in matching instruments in the measuring circuit.

A known method of controlling the integrity of the elements of products, in which ferromagnets are applied to the controlled surfaces of products, magnetize them and continuously monitor during operation

X |

Yu Oh

2

4

with.

articles of the presence of signals of the electromotive force of induction, formed when ferromagnets get into the moving medium, is a prototype of the invention. The disadvantage of this method is the limitation of the scope of the technological process due to control at operating temperatures not higher than the Curie point temperature.

The purpose of the invention is to expand the scope of the method for controlling the integrity of product elements at temperatures above the Curie point.

The essence of the invention lies in the fact that in the method of monitoring the integrity of the elements of the product with the working medium in which the layer of indicator material is applied, the product is placed in a magnetic field, electromagnetic transducers are placed along the product, the medium is passed through the product elements and the presence of the Electromotive Force Signal is continuously monitored , which | is judged about the beginning of the violation of the integrity of the elements of the product, the product is placed in a constant magnetic field, and non-ferromagnetic are taken as indicator material second conductive material.

The drawing shows a diagram of a specific implementation of the method for monitoring the integrity of the elements of products.

A layer of indicator material 3 is applied to the surface 2 of element 1 to be monitored. To measure the signals of the electromotive force of induction, electromagnetic transducers 4 are placed along the article 5. The process is monitored while the working medium 6 is moving (gas, liquid), and the product is placed; in the magnetic field 7, pass the working medium through the elements of the product and continuously monitor the presence of the signal

electromotive force of induction (EMF induction), which judges the beginning of the violation of the integrity of the elements of the product, and by its magnitude - the dynamics of the violation of the integrity of the elements of the product. Distinctive features of the prototype is that the product 1 is placed in a constant magnetic field 7, and non-ferromagnetic electrically conductive material is taken as indicator material 3. In case of violation of the integrity of the product element, for example mechanical failure, the torn particles 8 are set in motion in the direction of movement 6 of the product medium. Due to the electromagnetic interaction of a moving electrically conductive material in a magnetic field, i.e. particles 8 in field 7, eddy currents 9 will be induced in the electrically conductive material of this particle, forming a secondary alternating magnetic field 10, inducing induction EMF signals in electromagnetic converters 4. Thus, the use of indicator material — a non-ferromagnetic electrically conductive material — and a constant magnetic field in the process of controlling the integrity of product elements allows us to expand the field of application of the method by monitoring products at temperatures above the Curie point. The method is based on the applied use of material resources mastered by the industry, the method is relatively simple, quite effective. The use of the method for monitoring the integrity of product elements is advisable in hazardous components and assemblies of products, for example, in power plants whose parameters are in the range of extreme values of temperature, speed or pressure m.

SUMMARY OF THE INVENTION

A method for monitoring the integrity of product elements with a working medium, which consists in applying a layer of indicator material on the surface of the element being monitored, placing the product in a magnetic field, placing electromagnetic transducers along the product, passing the working medium through the product elements, and continuously monitoring the presence of

EMF induction signal, which judges the beginning of the violation of the integrity of the elements of the product, and its magnitude - the dynamics of violations of the integrity of the elements of the product, characterized in that, in order to expand the scope of use by monitoring products at temperatures above the Curie point, the product is placed in a constant magnetic field, and non-ferromagnetic electrically conductive material is taken as an indicator material.