SU603893A1 - Method and apparatus for measuring the characteristics of pulsed acoustic emission signals - Google Patents

Description

(54) METHOD AND DEVICE FOR MEASURING THE CHARACTERISTICS OF PULSE SIGNALS OF ACOUSTIC EMISSION

bodies, and the first input of the latter is connected to an electro-acoustic transducer.

FIG. 1 is given a block diagram of the proposed device; in fig. 2 shows the principle of operation of the device.

The device contains an electroacoustic transducer 2 installed at the site 1, an auxiliary amplifier 3, a video detector 4, a Schmidt trigger 5, a shaper 6 reset pulses, a peak detector 7, an actuating element 8, a main transducer 9, a main amplifier 10 and an analysis unit II.

An acoustic emission pulse propagating in object 1 from the source arrives at an auxiliary transducer 2 (in Fig. 2 this corresponds to the time ti), is converted into an electrical signal - Unpi (t), and through amplifier 3 is fed to the inputs of video detector 4 and peak detector 7, where the peak value of the signal UK5 (t) is stored. The output voltage of the peak detector 7, through the actuating element 8, automatically adjusts the gain of the main amplifier 10 and introduces the corresponding correction into the analysis block 11. Through time, - | -. an acoustic pulse arrives at the main transducer 9 (in Fig. 2, this corresponds to the time t). The Unpa (t) signal from the converter 9 is fed through the main amplifier 10 to the input of analysis unit 11, where the signal is processed to obtain information about the corresponding energy characteristic (spectrum, amplitude, power, etc.). A pulse is formed from the envelope Uej (t) at the output of video detector 4 with the help of Schmidt trigger 5), the falling edge of which (which corresponds to the moment of the end of the signal from converter 2) starts the driver 6, which after a time t cz gives a reset pulse Uc $ (t), on which information is erased from the storage elements of the peak detector 7. When the next pulse arrives, the measurement cycle is repeated. The duration of the signal at the output of the peak detector 7g ,, ,,,, is generally determined from the CONDITIONS:

  te-11 t + sz, where t is the pulse duration.

Claims (2)

1. A method for measuring the characteristics of pulsed acoustic emission signals, consisting in receiving acoustic pulses, transforming them into electrical signals, amplifying and analyzing, characterized in that, in order to enhance the dynamic range of measuring the energy characteristics of acoustic emission pulsed signals, the direction of propagation of the acoustic emission wave from the source, receive signals at two receiving points separated by a given distance in the direction p sprostraneni wave, depending on the amplitude of the signal at the first point prie.ma automatically adjust the signal gain from the second reception point, wherein the distance S .mezhdu points determined from the conditions where the n - time peak pulse buildup, V acoustic propagation velocity in the material. 2. The device according to claim 1, containing e, .1ekt |) acoustic transducer, amplifier and analysis unit, characterized in that it is equipped with series-connected high-voltage electroacoustic transducer, amplifier, video detector, Shkidt trkggero.m, shaper., 1s Sat) wasp. peak detector, execute. The other output of the additional amplifier is connected to the second input of the peak detector, one output of the actuator is connected to the second input of the main amplifier, the other to the input of the analysis unit, the second input of which is connected to the output of the main Amplifier, and the first input of the last is connected to the electroacoustic converter. Sources of information taken but attention in the examination: 1.Patent of France No. 2111415, cl. G Oi .N 24/04, 1970. 2. The instrument series 3000, the prospectus of the company Dipan, 1975.