RU2011196C1 - Device for non-destructive testing using acoustic emission - Google Patents

Abstract

FIELD: non-destructive inspection. SUBSTANCE: device has serially connected converter and at least three parallel channels each of which comprises serially connected discriminator, shaper, intensity meter, divider units and recorder. The device is characterized in that it is provided with at least two divider units, one adder and auxiliary recorder. The device discriminates signals with different amplitudes from a received signal and performs amplitude-wise counting of the absolute number of these pulses in channels and the ratio of numbers of pulses with different amplitudes in these channels. EFFECT: enhanced accuracy due to determining the ratio of acoustic emission pulses with different amplitudes. 1 dwg

Description

 The invention relates to non-destructive testing in mechanical engineering and can be used to control product defects by acoustic emission signals.

 A device is known that contains a series-connected converter, preamplifier, amplifier and at least three parallel channels, each of which consists of a series-connected discriminator, shaper and intensifier, as well as a recorder [1].

 The closest in technical essence to the invention is a device for non-destructive testing by the method of acoustic emission, containing a series-connected Converter, preamplifier, amplifier. Three identical channels (parallel) are connected to the amplifier output, each of which contains discriminators, shapers, intensimeters connected in series. Dividers are connected to the outputs of the intesimeters. Registrar [2] is connected to the outputs of the dividers.

 The disadvantages of this device are the low accuracy of control and low information content of the parameters of acoustic emission signals due to re-registration of a pulse whose amplitude exceeds two or more thresholds of channel discrimination, as well as determining only the relative emission activity of signals, makes it difficult to assess the accumulation of damage in the material during structural testing.

 The purpose of the invention is to increase the accuracy of control.

 To do this, the known device is equipped with two additional dividers, one adder and an additional recorder connected in such a way: two inputs of the first additional divider are connected to the output of the first and second intensimeters, the first input of the adder is connected to the output of the first intensimeter, the second input to the output of the first additional divider, the first input of the second additional divider is connected to the output of the adder, and the second input to the output of the third intensimeter, the first input of the additional recorder is connected It is connected to the output of the first intensimeter, the second input to the output of the first additional divider, and the third input to the output of the second additional divider, the first input of the first divider is connected to the output of the first intensimeter, and the second input is to the output of the first additional divider, the first input of the second divider is connected to the output of the first intensimeter, and the second input to the output of the second additional divider, the first input of the third divider is connected to the output of the first additional divider, and the second is the input to the output of the second additional divider body.

 The drawing shows a block diagram of the proposed device.

 The device contains a series-connected converter 1, preamplifier 2, amplifier 3. Three identical parallel channels are connected to the output of amplifier 3, each of which contains discriminators 4-6 connected in series, shapers 7-9, intensimeters 10-12. An additional dividing block 13 is connected to the outputs of the intensimeters 10 and 11, an adder 14 is connected to the outputs of the intensimeter 10 and divider 13, a divider 15 is connected to the outputs of the adder 14 and intensimeter 12, the divider 16 is connected to the outputs of the intensimeter 10 and the outputs of the intensimeter 10 and the divider 15 - the inputs of the divider 17, the outputs of the dividers 13 and 15 - the inputs of the divider 18, the outputs of the dividers 16-18 - the recorder 19, and the outputs of the intensimeter 10 and the outputs of the dividers 13 and 15 - the recorder 20.

 The device operates as follows.

 Acoustic emission pulses are recorded by transducer 1, amplified by preamplifier 2 and amplifier 3, then fed to discriminators 4-6 and shapers 7-9, which perform amplitude selection of pulses according to three discrimination levels. The pulse repetition rate is measured by intensifiers 10-12, after which two dividers 13 and 15 divide the pulse repetition frequencies, and the adder 14 sums the pulses in such a way that after the intensimeter 10 the number of pulses of average amplitude is obtained, and after the divider 15, the number of pulses for each the channel that is registered by the registrar 20.

 From the outputs of the intensimeter 10 and dividers 13 and 15, the pulses arrive at the dividers 16-18, which produce the division of the pulse repetition frequencies. The results of measuring the ratio of pulse repetition rates are recorded by the recorder 19.

 Thus, the proposed device allows to increase the accuracy of control through the use of additional dividers and an adder connected to the outputs of the intensimeters, since this inclusion eliminates the possibility of recording by the recorder, the ambiguity of the pulse of large amplitude and to obtain the absolute number of pulses for each channel. (56) 1. Defectoscopy, 1979, N 8, p. 56-58.

 2. USSR author's certificate N 920514, cl. G 01 N 29/14, 1980.

Claims (1)

 DEVICE FOR NON-DESTRUCTIVE CONTROL BY THE ACOUSTIC EMISSION METHOD, comprising a series-connected acoustic transducer, pre-amplifier and amplifier, three channels, each of which is made up of a discriminator, a shaper and an intensimeter in series, the first divider, the first input of which is connected to the output of the first channel intensimeter, the second divider the inputs of which are connected to the outputs of the intensimeters of the second and third channels, the third divider and the first recorder connected to the outputs of the the second and second dividers, characterized in that it is equipped with a fourth and fifth dividers, an adder and a second recorder connected to the outputs of the third, fourth and fifth dividers, the output of the second divider is connected to the first inputs of the adder, the third and fifth dividers, the output of the third channel intensimeter is connected with the third input of the first recorder and with the second inputs of the adder, the fourth and fifth dividers, and the output of the adder is connected to the second input of the first divider, connected by the outputs with the second inputs of the third and fourth th dividers.

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