SU832428A1 - Device for measuring internal friction of materials - Google Patents

Description

(54) DEVICE FOR MEASURING THE INTERNAL FRICTION OF MATERIALS

initial settings of the amplitudes of oscillations, a discrete sensor 5 amplitudes, a counter 6 amplitudes, a comparison unit 7, a control unit 8, a display unit 9 and 10, and an indicator 11.

The device works as follows.

The drive of the device is switched on, which excites oscillatory motion in the sample under study and determines the damping characteristics of the oscillations. When a sample passes an equilibrium position, an impulse appears at the output of sensor 1 of the number of periods, and with a maximum deviation from this position, a pulse arises at the output of sensor 5 of amplitudes. On this impulse, the control unit 8 opens the amplitude counter 6 for the duration of the sample deviation from the equilibrium position in one direction only. When the sample deviates to the opposite side of the counter

6 amplitudes are zeroed out, i.e., at the end of the count, numbers proportional to the amplitude of the sample deviation in the same direction are recorded in this counter. Due to the attenuation of free oscillations of the pattern, the counter 6 records a decreasing number of numbers, the code of which is fed to the first inputs of the comparison unit 7, and the inputs of the initial settings-oscillation amplitudes unit 3 are connected to the second inputs of this block using the control unit 8. The dialed code (number) in block 3 is selected less than the code corresponding to the initial sample deviation.

As the oscillations of the sample decay, the numbers recorded by the 6 amplitude counter decrease. When the next number recorded by this counter at the time of the end of the count is less than the number dialed in block 3, the block

7 and outputs a signal to the control unit 8. According to the commands of the control unit 8, the contents of the counter are 6 amplitudes, i.e. the code (number) corresponding to the actual value of the oscillation amplitude is output to the display unit 9, and the initial settings of amplitudes (instead of the block 3 of the same assignment), the dialed code of which corresponds to the second smallest of the selected deviations of the sample from the position, is connected to the inputs of the comparison unit 7. balance

In this case, the control unit 8 opens

counter 2 periods of sample oscillation from

sensor 1 the number of periods. After

Amplitude counter 6 will record at the moment

 the counting number count, less than the number dialed in block 3 of the initial settings of the amplitudes of the oscillations, the contents of the counter 6 amplitudes, i.e. code (number) corresponding to the actual value of the amplitude of oscillations, at the command of the control unit 8

is displayed on indicator 11. Thereafter, the counters 6 and 2 are closed, and the counting stops.

Thus, after the end of the test cycle, the display units 9 and 10 will display (in word units) the actual values of the oscillation amplitudes closest to the typed amplitudes on the blocks 3 and 4, and the indicator 11 displays the number of oscillation periods between the displayed amplitudes, this provides an increase in the accuracy of measuring the characteristics of the internal friction of materials.

Claims (1)

Invention Formula Device for measuring the internal friction of materials, containing a mechanical resonant system consisting of a sample with inertial weights and nodes for supplying and recording oscillation characteristics, an oscillation source, a sensor for the number of oscillation periods electrically connected to the input of a period counter and two blocks of initial settings of oscillation amplitudes, characterized in that, in order to improve accuracy, it is equipped with a discrete amplitude sensor, an amplitude counter whose input is connected to the output of a discrete sensor, a comparison unit, the first inputs of which are connected to the output and an amplitude counter, the second inputs to the outputs the initial settings, the control unit and two display units, the information inputs of which are connected to the amplitude counter outputs, the control unit inputs are connected to the sensor for the number of oscillation periods and the comparator output, and the comparator outputs are connected to the control inputs of the period and amplitude counters, control inputs of the display units and control inputs of the initial amplitude settings blocks. Sources of information taken into account in the examination 1. Kantsov L. N., Porotikov V. G. and Chernin B. P. A device for measuring the quality factor. Works of NIICHASprom. M., 1972, vol. 10, s. 116 (prototype).