SU505958A1 - Method for measuring attenuation coefficient of ultrasonic pulses - Google Patents

Claims (1)

The exponents, made on a transparent film and superimposed on the screen, put two marks indicating the exponent decay Y 10 times, and the generator frequency is chosen so that 10 periods of oscillation fit between these marks. Such a frequency selection can be made manually or an auto prefix can be made, which converts the sweep speed into a frequency with the specified law of conformity. The decay factor in decibels per microsecond is determined by the formula; a 201gB, where B is the y6b iSaHHe pulse amplitude during time t. When decreasing the amplitude over time t by 10 times, the attenuation coefficient is inversely proportional to time t: When the speed is adjusted so that the signal fits into the fixed exponent, then the time of flight of the beam between by the mentioned marks (c) equals the time of the decrease in the amplitude of the pulse by | / 1 times: a 10/6. When 10 oscillation periods fit between marks, then this interval equates to 10 oscillation periods: in pcs. Replacing the period with the frequency f, we finally get: a f. (3) Thus, with the indicated correspondence of the sweep rate to the frequency, the frequency of periodic oscillations in Hertz will be numerically equal to the attenuation. microsecond. The use of this correspondence greatly simplifies the process of measuring the attenuation coefficient. Formula of the Finding Method for measuring the attenuation coefficient of ultrasonic pulses based on matching the envelope of a sequence of repetitively reflected impulses reflected from the boundary surfaces of the medium under test, characterized by the oscilloscope display speed, in order to increase the accuracy and simplify the measurement process the oscilloscope beam is compared with the frequency of periodic oscillations, selecting the frequency so that an integral number of periods of they are measured and their frequency is measured by which the attenuation coefficient of the ultrasonic pulses is judged.