SU970214A1 - Device for material acoustic emission checking - Google Patents

Description

The invention relates to non-destructive testing, and can be used to control defects in materials by acoustic emission method. A device for recording acoustic emission signals is contained, which are connected in series to a transducer, preamplifier, amplifier, driver, intensifier, and recording unit 1. The device for acoustic emission monitoring of materials containing a series-receiving amplifier transducer is the closest in technical detail. , oscillator shaper, first event generator, as well as key connected in series, peak value generator Plays and-information processing unit 2}. The disadvantage of these devices is low control accuracy, due to the fact that the registration of acoustic emission signals is performed without taking into account the changes for the acoustic signal strength, the magnitude of which is related to the nature of the destruction. The purpose of the invention is to improve the accuracy of control. The goal is achieved in that the device for acoustic emission monitoring of materials, comprising a serially connected receiving transducer, amplifier, oscillator, first event generator, as well as a serially connected key, peak amplitude generator and information processing unit, is equipped with a second event generator and summatf , the output of the first event generator is connected to the input of the second event generator and the first input of the rummator, the second input of which is connected to the output the second event generator, and the output of the adder. connected to the input of the key and the second input of the processing unit. The drawing shows the device. The device contains a receiving converter 1 connected in series, an amplifier 2, an oscillator 3, a first driver 4 events, as well as a key 5 connected in series, a driver 6 peak amplitudes and an information processing block 7. The device also contains the second event generator 8 and the adder 9, the output of the first forming the event body 4 is connected to the input of the second event generator 8 and the first input of the adder 9, the second input of which is connected to the output of the second generator 8 events, and the output of the adder 9 is connected to the input key 5 and the second input of the processing information block 7 & The device works as follows. The receiving transducer 1, located on the controlled article 1O, receives ultrasonic vibrations and converts them into electrical signals, which are amplified by the amplifier 2 and fed to the input of the oscillator 3. When the signal reaches a predetermined level, the driver of 3 faults triggers and outputs the number of pulses proportional to the number of intersections of the specified levels. The first pulse of the oscillator of the 3 oscillation, the duration T of which is set, based on specific control objects, starts the first driver of 4 events, collected on the one-shot. After the expiration of the duration 1, the pulse of the first fmfreader 4 events is started, the second event generator 8 is started, which is also assembled on the one-shot, but with a set duration t, less than f. Jampulse; s with duration f and come ya adder 9, which forms an impulte with duration V + Vt. The impulse generated by the adder 9 is fed to the second input of the information processing unit 7, where the processing of the intensity of acoustic emission events takes place, and to the key 5, which controls the shaper 6 of the peak amplitude value. The generated pulse of the peak amplitude value is fed to the input of the information processing unit 7, where further processing of the peak amplitude value takes place. If during the time f at the output of the shaper 3 oscillations a pulse appears, it will start the first shaper of 4 events and the process of forming events will repeat, and the pulse generated by the summing device 9 will be 2 CL + T) and so on. At the same time, the duration of the generated pulse of the peak value of the amplitude of the acoustic emission signals is determined55 by the duration of an individual event. Thus, the proposed device allows to establish a relationship between the number of events, oscillations and the amplitude distribution with the type and nature of destruction, which increases the accuracy and reliability of the control. A breach formula, a device for acoustic emission monitoring of materials, comprising a receiving transducer connected in series, an amplifier, an oscillation driver, a first event generator, as well as a serially connected key, a peak-value amplitude generator, and an information processing unit, characterized in that , with. In order to improve the accuracy of control, it is equipped with a second event forkshramer and an adder, the output of the first event generator is connected to the input of the second event generator and the first input of the adder, the second input of which is connected to the output of the second event generator, and the output of the adder is connected to the second input processing information. Information sources, . taken into account during the examination 1.Sharp R, Non-destructive testing methods. M., Mir, 1972 p. 44. 2. The device AF-11. Technical specification SCHYu2.739.011 - TO, Chisinau, Electrotochpribor plant, 1977 (prototype).

Claims (1)

Formula of the invention, A device for acoustic emission monitoring of materials, comprising in series a receiving transducer, an amplifier, an oscillator, an first event driver, as well as a key connected in series, a peak amplitude generator and an information processing unit, characterized the fact that, with. In order to increase the control accuracy, it is equipped with a second event shaper and an adder, the output of the first event shaper is connected to the input of the second event shaper and the first adder input, the second input of which is connected to the output of the second event shaper, and the adder output is connected to the input to the heel and to the second input information processing unit.