RU2476872C1 - Ultrasonic testing method of metallurgical products with electromagnetic acoustic transducers on air cushion, and device for its implementation - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: excitation of ultrasonic oscillations in the tested piece, which propagate in the plane of the tested piece, reception and processing of the signal reflected from the tested piece defect is performed. Besides, before the testing process, the temperature of the tested piece is measured additionally, air cushion is created by supplying steam-air mixture under pressure between the plane of ultrasonic transducers and the surface of the tested piece, which meet the condition: P×S=F, where P - steam-air mixture pressure, S - area of working surface of ultrasonic transducer, F - pressing force of transducer to the surface of the tested piece. The steam-to-air ratio is chosen within 0.01% to 3% as to the mixture volume depending on the tested piece temperature.

EFFECT: improving the testing accuracy by means of electromagnetic acoustic transducers (EMAT); increasing EMAT service life.

5 cl, 1 dwg

Description

The group of inventions relates to ultrasonic testing of metallurgical products, for example, continuously cast billets, sheets, pipes, long products, etc., by electromagnetic-acoustic transducers on an air cushion. The group of inventions can be used as part of automated ultrasonic non-destructive testing facilities operated in the metallurgical industry.

As is known from the technical field, the advantage of using electromagnetic-acoustic transducers (EMAT) is the possibility of monitoring without the use of contact liquid, as is the case with piezoelectric transducers, and allows a certain air gap between the transducer and the control object. In the case of dynamic control, when the EMAT substrate is in contact with the surface of the object under control, the EMAT is abraded and destroyed, which leads to additional costs for the production of metal products. To increase the life of the EMAT units, there are technical solutions that use an air cushion between the EMAT substrate and the surface of the test object.

The task to which the claimed group of inventions is directed is to increase the reliability of control using EMAT by eliminating the influence of the surface quality of the object of control on the results of inspection, as well as increasing the life of EMAT.

Known electromagnetic-acoustic transducer, the design of which allows you to form an air cushion (patent RU 2223487, CL. G01N 29/24, 2002)

The known technical solution provides a constant value of the air cushion between the substrate and the surface of the control object, but the quality of the surface of the control object (for example, the presence of scale) is not taken into account, which reduces the reliability of the control.

The closest in technical essence and achieved by using the result of the claimed method is a method of ultrasonic testing of metallurgical products by electromagnetic-acoustic transducers on an air cushion, including excitation in the object of control of ultrasonic vibrations propagating in the plane of the controlled object, receiving and processing the signal reflected from the defect of the control object (patent RU 2123401, CL. B21B 38/00, 1998). This technical solution is taken as a prototype according to the claimed invention to the method.

The disadvantages of this method are the effect on the quality of control of surface irregularities of the control object and increased requirements for the quality of air used to create an air cushion, which is almost impossible to ensure in a production environment.

The essence of the invention lies in the fact that the inventive method of ultrasonic testing eliminates the influence of surface irregularities of the object of control on the results and reliability of the control.

This is achieved by the fact that in the method of ultrasonic monitoring of metallurgical products by electromagnetic cushion transducers on an air cushion, including excitation in the object of control of ultrasonic vibrations propagating in the plane of the controlled object, receiving and processing the signal reflected from the defect of the control object, the temperature of the object is additionally measured control, an air cushion is created by feeding between the planes of ultrasonic transducers and the surface about the object of control of the vapor-air mixture under pressure, satisfying the condition P × S = F, where P is the pressure of the vapor-air mixture, S is the surface area of the ultrasonic transducer, F is the pressure force of the transducer to the surface of the control object, and the ratio of steam to air is chosen in the 0.01% to 3% by volume of the mixture depending on the temperature of the control object, while at the temperature of the control object from + 100 ° C to + 1200 ° C, the ratio of steam to air is taken in the range from 0.01 to 0.05% by volume of the mixture, and at the temperature of the control object less than + 100 ° C, the ratio of steam to air is taken in the range from 0.05 to 3% by volume of the mixture.

The inventive method of ultrasonic testing allows to increase the reliability of control by eliminating the influence of surface irregularities of the object of control, to increase the life of the EMAT by reducing the abrasion of the EMAT substrate on the surface of the object of control.

The inventive method of ultrasonic testing can be carried out using the proposed device.

The inventive method of ultrasonic testing and a device for its implementation are united by a single inventive concept, since the device allows you to implement a method of ultrasonic testing by transducers on an air cushion, eliminating the influence of surface irregularities of the test object and increasing the life of the EMAT by reducing the abrasion of the EMAT substrate on the surface of the object of inspection.

A technical solution is known in which the EMAT contains a housing, inductors, a magnetic circuit and an air duct system for creating an air cushion (patent RU 2223487, CL. G01N 29/24, 2002).

This design does not take into account the surface roughness of the test object, which reduces the reliability of the control and reduces the life of the converter.

The closest in technical essence and achieved when using the result to the claimed device is a device for ultrasonic monitoring of metallurgical products by electromagnetic-acoustic transducers on an air cushion, containing a set of electromagnetic-acoustic transducers on an air cushion connected to a block of generators and to a block of receiving amplifiers, a block of coherent accumulation of the reflected signal, connected between the outputs of the receiving amplifiers and the input th device (patent RU 2123401, Cl. V21V 38/00, 1998).

This technical solution is taken as a prototype of the claimed device.

The known invention does not allow to take into account surface irregularities of the control object, which, in turn, reduces the reliability of the control results.

The essence of the invention lies in the fact that the claimed design ensures the implementation of the method due to the fact that the design of the device has elements that ensure the composition of the vapor-air mixture on the surface temperature of the control object.

This is achieved by the fact that the device for ultrasonic monitoring of metallurgical products by electromagnetic-acoustic transducers on an air cushion containing a set of electromagnetic-acoustic transducers on an air cushion connected to a block of generators and to a block of receiving amplifiers, a block of coherent accumulation of the reflected signal connected between the outputs of the receiving amplifiers and the input of the recording device, further comprises sensors for measuring the temperature of the control object, a mechanism compressed air supply, a reservoir with a liquid, a steam generator, a steam dispenser and a mixing chamber, wherein the temperature measuring sensor is electrically connected to the steam dispenser, the liquid reservoir is hydraulically connected to a steam generator hydraulically connected to the steam dispenser connected to the mixing chamber, the mixing chamber being connected with a compressed air supply mechanism and connected to the channels of electromagnetic-acoustic transducers to create an air cushion. In this case, the temperature measurement sensor of the control object is made in the form of an infrared pyrometer.

The advantages of the claimed device include the high reliability of the control results, the exclusion of possible irregularities in the surface of the control object, the reduction of the abrasion of the EMAT substrate, which leads to an increase in its operating life.

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information containing information about analogues of the invention for both the method and the device, made it possible to establish that analogues that are characterized by the features of the claimed method and device were not found, but from the list of identified analogues selected prototypes for both the method and the device, which allowed us to determine the distinguishing features of the proposed method of ultrasonic testing and device for its implementation. According to the applicant, the claimed group of inventions meets the criterion of "novelty" under the current law.

Technical solutions claimed in the group of inventions do not follow explicitly from the prior art, therefore, it meets the criterion of "inventive step".

To confirm the industrial applicability of the group of inventions is a block diagram of a device for implementing the method. A device for ultrasonic testing of metallurgical products by electromagnetic-cushion transducers on an air cushion contains electromagnetic-acoustic transducers 1 on an air cushion connected to a block of generators 2 and to a block of receiving amplifiers 3. Block 4 of coherent accumulation of the reflected signal connected between the outputs of the receiving amplifiers 3 and the input recording device 5. The device further comprises a sensor 6 for measuring the temperature of the control object 7, electrically connected with the dispenser steam rum 8, which through a steam generator 9 is hydraulically connected to the reservoir with liquid 10. The steam dispenser 8 is connected to a mixing chamber 11 connected to a compressed air supply 12 and channels 13 of electromagnetic-acoustic transducers to create an air cushion.

The principle of the method of ultrasonic testing of metallurgical products by electromagnetic-acoustic transducers on an air cushion is shown by the example of the operation of the device for implementing this method.

A device for implementing the method of ultrasonic testing of metallurgical products by electromagnetic-acoustic transducers on an air cushion works as follows.

Initially, the liquid from the reservoir with the liquid 10 enters the steam generator 9, the steam, in turn, enters the steam dispenser 8. The mechanism 12 supplies compressed air to the mixing chamber 11. The control object 7 enters the zone of operation of the sensor 6, which measures the temperature of the control object 7 and provides a control signal to the steam meter 8. Depending on the control signal of the sensor 6, the steam meter 8 feeds steam into the mixing chamber 11 ranging from 0.01% to 3% by volume of the mixture. The EMAT 1 is lowered onto the control object 7 and, at the moment of contact from the mixing chamber 11, the air-steam mixture is fed into the EMAT through channels 12, and an air cushion h is created between the EMAT substrate 1 and the control object 7. The generator 2 generates a high-frequency electric signal and feeds it to the inductors of the EMAT 1, which excites an ultrasonic wave in the control object 7. The signal reflected from the defect of the control object 7 is recorded by the EMAT 1 and enters the receiving amplifier 3, after which it passes through the block 4 of coherent accumulation of the reflected signal enters the recording device 5, giving a conclusion about the presence or absence of defects in the control zone.

If the sensor 6 registers a temperature value in the range from + 100 ° C to + 1200 ° C, the dispenser 8 delivers steam to the mixing chamber 11 in the range from 0.01% to 0.05% by volume of the mixture. Since the temperature of the control object 7 is high, the amount of steam can be supplied to a lesser extent, because at this temperature, the presence of scale on the surface of the control object 7 is quite small, and the EMAT substrate 1 does not experience friction when moving the control object 7, which increases the EMAT life and reliability of the control.

If the sensor 6 registers the temperature of the control object less than + 100 ° C, then the amount of scale on the surface of the control object 7 increases, and therefore it is necessary to increase the amount of steam from 0.05% to 3% by volume of the mixture supplied from the steam meter 8 to the mixing camera 11.

The volume of steam in the steam-air mixture in the range from 0.01% to 3% was established experimentally: when the volume of the steam is less than 0.01%, the efficiency of introducing steam into the steam-air mixture does not have an effect on eliminating scale from the surface of the control object; when steam is introduced into the mixture, more 3% is impractical because may cause the opposite effect, i.e. lead, for example, to corrosion of the test object.

When the device is operating as a temperature sensor 6, any sensor can be used to measure temperatures up to 1200 ° C, for example, an infrared pyrometer.

Thus, the claimed group of inventions is industrially applicable and gives the positive effect described above.

Claims (5)

1. The method of ultrasonic testing of metallurgical products by electromagnetic-cushion transducers on an air cushion, including excitation in the object of control of ultrasonic vibrations propagating in the plane of the controlled object, receiving and processing the signal reflected from the defect of the control object, characterized in that the temperature of the object is additionally measured before the control process control, an air cushion is created by feeding between the planes of ultrasonic transducers and the surface of the object the control of the vapor-air mixture under pressure satisfying the condition P · S = F, where P is the pressure of the vapor-air mixture, S is the area of the working surface of the ultrasonic transducer, F is the pressure force of the transducer to the surface of the control object, and the ratio of steam to air is selected in the range 0.01% to 3% by volume of the mixture, depending on the temperature of the control object. 2. The method according to claim 1, characterized in that at a temperature of the control object from + 100 ° C to + 1200 ° C, the ratio of steam to air is taken in the range from 0.01 to 0.05% by volume of the mixture. 3. The method according to claim 1, characterized in that when the temperature of the control object is less than + 100 ° C, the ratio of steam to air is taken in the range from 0.05 to 3% by volume of the mixture. 4. The device for implementing the method according to claim 1, containing a set of electromagnetic-acoustic transducers on an air cushion connected to a block of generators and to a block of receiving amplifiers, a block of coherent accumulation of the reflected signal included between the outputs of the receiving amplifiers and the input of the recording device, characterized in that it additionally contains sensors for measuring the temperature of the control object, compressed air supply mechanisms, a reservoir with liquid, a steam generator, a steam dispenser and a mixing amer, the temperature measuring sensor is electrically connected to the steam meter, the fluid reservoir is hydraulically connected to the steam generator, hydraulically connected to the steam meter, connected to the mixing chamber, and the mixing chamber is connected to the compressed air supply and connected to the channels of the electromagnetic-acoustic transducers for creating an air cushion. 5. The device according to claim 4, characterized in that the temperature measuring sensor of the control object is made in the form of an infrared pyrometer.