SU832429A1 - Device for measuring internal friction of materials using free oscillations - Google Patents

Description

I

This invention relates to a measurement technique using non-destructive control methods for measuring internal friction at the material phase.

A device is known for measuring the internal tension of materials on free oscillations, containing a mechanical resonance system, arranged by the sample under study, a sensor for the number of periods of oscillations of the sample, connected to the input of the counter, and two sets of thresholds of the oscillation angles l.

The disadvantage of the device is its low accuracy, due to the fact that the sample material, which is in the equilibrium position (on the 1st level), may be exposed to residual stresses, for example, as a result of mechanical or thermal treatment of the material under investigation. sample.

The purpose of the invention is to improve the measurement accuracy by eliminating the influence of

residual stresses in the sample material.

Claims (1)

The goal is achieved by the fact that the device is equipped with a discrete sensor of amplitudes of oscillations of the sample, with Mmator amplitudes, two inputs of which are connected to the codes of a discrete sensor of amplitudes of oscillations, a block of digital comparison, the first inputs of the amplitude, and the second inputs through additionally entered keys connected to the outputs of two blocks of settings of threshold values of oscillation angles, two registers, the bits of which are connected to the output of the amplitude adder, and the control unit, the input to torogo connected to the output of the digital comparator and the output sample number of periods of oscillations of the sensor and the control unit outputs are connected with the control input keys, and registers the number of periods of oscillation of the sample counter. In the drawing, a functional block diagram of the device is shown. The device contains two blocks 1 and 2 of the threshold values of the sample oscillation angles connected via keys 3 and 4 to the first inputs of the block 5 of digital matching of code combinations. The second inputs of digital matching unit 5 are connected to the outputs of the adder 6 amplitudes and the inputs of registers 7 and 8, and their outputs with the corresponding indicators 9 and Yu. The input of the adder b amplitudes is connected to the outputs of the discrete sensor 11 amplitudes of oscillations of the sample. The control input of the amplitude 6 adder is connected to one of the control units 12 of the control unit, the remaining outputs of which are connected to the control inputs of keys 3 and 4, counter 13, registers 7 and. 8. The information input of the counter 13 is connected to the sensor code 14 of the number of periods of oscillations of the sample, which generates pulses when the sample passes the position of the equipotent (nouveau level). The main input of the control unit 12 is connected to the code of the digital comparison unit 5 and the sensor output 14 of the number of oscillation periods, and the indicator 15 is turned on during you counter 13. The device operates as follows. In the initial state, the tilt swivel (in the drawing, not shown is twisted on some initial Goal, the amplitude 6 adder and the registers 7 and 8 are reset, and the keys 3 and 4 are closed by the signals of the control unit 12. In the sets 1 and 2 of the threshold settings the values of the angles of oscillation are preliminarily entered numerical codes corresponding to the threshold values of the twist angles Ay / and the sample As2) -., The signal of the control unit 12 relieves the force of the torsion plane, and it begins to make free torsional oscillations with a damped amplitude and period T. At the same time, the keys 3 are opened and the first inputs of the digital comparison unit 5 are supplied with the Avi code from the unit 1. A sensor 14 of the number of oscillation periods produces pulses when a sample passes an equilibrium position, and a discrete sensor 11 of oscillation amplitudes produces pulses, the number of which AV is proportional to the maximum positive angle of the cI in the second half-turn, and then the number of pulses is proportional to the maximum negative angle twisting. In the amplitude adder, for each period determined by the sensor signals 14 of the number of oscillation periods, the codes corresponding to the maximum positive A / ft / AND maximum negative amplitudes A are added. Moreover, if in the first period A y / i.e. the code corresponding to the sum of the amplitudes at the output of the adder 6 amplitudes is greater than the code of block 1 of the setpoint threshold values of the oscillation angles (Ay), the digital comparing unit 5 does not signal, and the adder 6 of the amplitudes is zeroed by the control unit 12. This continues until, for example, through periods of free oscillations, the condition А А Ау is fulfilled. At the same time, the output of the block 5 is digital. comparison, a signal appears by which the control unit 12 generates a command to enable the recording of the code + + from the adder 6 amplitudes to the register 7 and the indication of the result on the indicator 9. At the same time, the control unit 12 turns off the keys 3 and turns on the keys 4 and also gives the counting resolution signal to the counter 13, which begins to count the number of oscillations of the tandem when it passes the equilibrium state, is recorded by the indicator 15. This continues until the condition is satisfied for the K-th period of free oscillations. etstvuyuschy code outputted from the adder amplitudes b in the register 8, and further the indicator Yu Account number of oscillations counter 13 is terminated. On the indicator 15 - the number N, and on the indicators 9 and 30, respectively, the numbers; -А-; -A;, -, where M is the number of oscillations, at which the sum of the maximum positive and maximum negative amplitudes decreases from Lu1 to A | Internal friction is calculated using the formula .p. TtN A-ltN A VAp Claims of Invention A device for measuring internal friction of materials on free oscillations, comprising a mechanical resonant system formed by the sample under study, a sensor for the number of periods of oscillations of the sample, connected to the input of the counter, and two sets of threshold values for the oscillation angles different heme, that, in order to increase accuracy by eliminating the effect of residual deposits in the material of the sample, it is equipped with a discrete sensor of amplitudes of oscillations of the sample, an adder of amplitudes, two inputs The digital inputs are connected to the codes of the discrete oscillation sensor, the first inputs of which are connected to the outputs of a sum of a magnitude amplitude, and the second inputs are additionally connected to the keys connected to the 8 29 outputs of two sets of oscillation threshold threshold settings, two regsgr, the inputs of which are connected with v (with the amplitude adder stroke, with the control unit, the input is connected to the output of the digital qeaval block and the output of the sensor for the number of sample oscillation periods, and the outputs of the unit for corrupting the junction. Dinene with control inputs of keys, registers, and a counter for the number of sample oscillation periods. Sources (shapes, taken into account during the examination 1. Kantsov L.N. and others. The device for measuring the quality factor, - Work NIIpasprypt. 10, 197Z, p. 116 (for ma. M., fortip).