SU1037169A1 - Automatic device for registering temperature dependance of investigated material specimen modulus of electricity and internal friction - Google Patents

Abstract

AUTOMATIC DEVICES FOR REGISTRATION OF CAPACITY the input of which is connected to the output of the amplifier, serially connected frequency-voltage converter connected to the output of the amplifier, quad and the first two a coordinate recorder, the second input of which is connected to a thermocouple, and a second two-coordinate recorder, about and so that, in order to improve accuracy, systori action and enhancement of functionality, it is equipped with a multi-wide angularizer, each channel of which is made of follow- but connected by a comparator, a durability-voltage converter and a multiplier unit connected to the analyzer outputs of a multichannel recorder connected in series by a peak detector and a threshold level generator connected in series by a single-oscillator connected to the output of the last channel comparator, circuit 2 OR-NOT and a key, second input Kotorog connected to the output of an adjustable amplifier, and the output - with the exciter of the sample, the trigger circuit. connected to the second input of the circuit 2IL-NOT connected in series by a generator of linearly varying voltage and a switch, the second input of which is connected to the k source of the reference voltage, and the output connection is connected by the second input of the comparison unit, the switch, the first input of which is connected to the output of the detector / VTSchyuy input - with a thermopair, and you — io move — with the first input of the second two coordinate recorder, the second input of which is connected to the output of the First Channel multiplication unit, the output of the detector is connected to the first inputs of the DOT pair moat. each channel and peak detector, each output of the fr threshold levels is connected to R1Sh and the third inputs of the comparators of each channel, the peak output is connected to the third input of the first channel comparator, and the input of the multiplier is connected to the output of the voltage frequency converter. -.

Description

The invention relates to a technique for measuring the physical characteristics of materials and can be used to measure the temperature dependences of the elastic modulus, internal friction and amplitude dependences of the internal friction of materials. A device for measuring the natural frequency and damping of materials, comprising an excitation generator, an amplifier designed to obtain the required excitation voltage amplitude, a capacitive sensor, and a preamplifier, the output voltage of which is proportional to the instantaneous value of the sample deformation, pulse formation stages, setting the measuring time interval. , logarithmic converter. exponential law of decreasing pulse amplitude to linear Til. The disadvantages of the known devices are low accuracy, low; the speed of testing, due to the manual adjustment of the sample to resonance, which, in continuous heating mode, ensures sufficient accuracy in determining the temperature, a1Lplitdue dependences of internal friction, as well as the resonant frequency. The closest to the invention to the technical essence and the achieved result is an automatic device for recording the temperature dependences of the elastic modulus and the internal friction of the sample of the material under investigation, which contains a unit for heating the sample, a thermocouple, an exciter of sample oscillations, sequentially connected measuring transducer, amplifier, detector , integrator and adjustable amplifier, the second input of which is connected to the output of the amplifier, connected in series A frequency-voltage device connected to the output, an amplifier, a quadrant and the first two-coordinate scribe itself, the second input of which is connected to a thermocouple, and the second two-coordinate recorder C 2. A disadvantage of the known device is the low accuracy of determining the internal friction of materials with high oscillatory Q-factor. due to low sensitivity. In addition, this device does not allow simultaneous measurement of the amplitude dependence of internal friction when conducting automatic measurements of temperature dependences. The purpose of the invention is to improve the accuracy, speed and expansion of the functional capabilities of the device. The goal is achieved by the automatic device for recording the temperature dependences of the elastic modulus and internal friction of a sample of a material under investigation, containing a sample heating unit, a thermocouple, a sample oscillation pathogen, a measuring transducer connected in series, a uritelizer, a detector, a comparison unit, an integrator and an adjustable amplifier, swarm - the input of which is connected to the output of the amplifier, serially connected frequency-voltage converter connected to the output of the amplifier The quadrant and the first two-coordinate recorder, the second input of which is connected to a thermocouple, and the second two-coordinate recorder, are equipped with a multichannel analyzer, each channel of which is made of series-connected comparator, duration-voltage converter and multiplier unit connected to the analyzer's outputs by a multichannel recorder, connected in series a peak detector and a shaper of threshold levels connected in series by a single-atom device connected to the output of a comparator and the last channel, the circuit 2 OR-NOT and the key, the second input of which is connected to the output of the adjustable amplifier, and the output - to the exciter of the sample oscillations, the starting circuit connected to the second input of the circuit 2 OR-NOT connected in series by a generator of linearly varying voltage and a switch, the second input of which is connected to the source of the reference voltage, and the output connected to the second input of the comparison unit, a switch whose first input is connected to the detector output, the second input to the thermocouple, and the output to the first input to the second two-coordinate recorder, the second input of which is connected to the output of the multiplying unit of the first channel, the output of the detector is connected to the first inputs of the comparators of each channel and the peak detector, each output of the threshold level generator is connected to the second and third inputs of the comparators of each pair of channels, the output of the peak detector is connected to the third the input of the comparator of the first channel; the second inputs of the multiplication units are connected to the output of the frequency-voltage converter. The drawing shows the functional diagram of the automatic device for recording the temperature dependences of the elastic modulus, and the internal friction of the sample of the material under study. An automatic device for recording the temperature dependences of the elastic modulus and the internal friction of the sample of the material under investigation contains unit 1 for heating Sample 2, thermocouple 3, the exciter 4 oscillations of the sample, connected in series measuring transducer 5, amplifier 6, detector 7,, comparison unit 8, integrator 9 and an adjustable amplifier 10, the second input of which is connected to the output of the amplifier b, connected in series to the converter 11 of the frequency voltage, connected to the output of the amplifier 6, the quad 12 and the first two-coordinate recorder 13, the second input of which is connected to thermo-g pair 3, and the second two-coordinate recorder 14, multichannel analysis of a torus, each channel of which is made of series-connected comparator 15-19 of converter 20-24 duration-voltage and multiplication unit 25-29 multiplying A multichannel recorder connected to the outputs of the analyzer. 30, sequentially connected peak detector 31 and shaper 32 threshold levels connected in series one-shot 33 connected to the output of comparator 19 of the last channel, circuits 34 2 OR-NOT and key 35, the second input of which is connected to the output of adjustable amplifier 10, and output - with a 4 sample oscillation generator, a start circuit 36 connected to the second input of the 34 2 OR NOT circuit, a linearly varying voltage generator 37 and a switch 38, the second input of which is connected to a reference voltage source (on. what the same is not shown), and the output is connected to the second input of the comparison unit 8, the switch 39, the first input of which is connected to the detector output 7, the second input to the thermocouple 3, and the output to the first input of the second two-coordinate recorder 14, the second input of which is connected to the output of the multiplication unit 25 of the first channel, the output of the detector 7 is connected to the first inputs of the comparators 15 19 of each channel and the peak detector 31, each output of the driver 32 threshold levels is connected to. the third inputs of the comparators 15–19 of each pair of channels, the output of the peak detector 31 are connected to the third input of the comparator 15 of the first channel, the second inputs of the multipliers 25–29 are connected to the output of the frequency-voltage converter 11. The device works as follows. Sample 2 of the test material is placed in block 1 to heat the sample. When the power is turned on, the start-up circuit 36 produces a voltage pulse of 10 ms, necessary for the occurrence of stable resonance oscillations in sample 2, which through the 2I51I-NB circuit 34 is fed to the control input of the switch 35, which includes a positive feedback circuit containing an amplifier 6, a detector 7, a comparison unit 8, an integrator 9 and an adjustable amplifier 10. In sample 2, resonant oscillations are excited using an electrostatic exciter 4.. Sgnal with. transducer 5 is amplified by amplifier 6. and through detector 7 is fed to the inputs of a multichannel analyzer and peak detector 31. which stores the maximum amplitude of resonant oscillations of sample 2. The peak detector 32 is loaded on resistors 40 - 45, defined by a peak detector 31 thresholds for the operation of the comparators of a 15–19 mn-channel channel analyzer. At the end of the initial triggering pulse, the key 35 opens the positive feedback and the resonant oscillations of sample 2 begin to die out exponentially, which will lead to alternate operation of two-level comparators: tori 15-19, and their outputs equal to decreasing time amplitudes of freely damped oscillations of sample 2 from the value determined by the upper response threshold to the value determined by the lower threshold, the response of the two-level comparator. Moreover, the lower threshold of the previous comparator is at the same time the upper threshold of the next comparator, and so on. At. implementation of the device. used dual two-level comparators such as K510SA1. At the end of the output pulse of the last comparator 19, a one-shot 33 is triggered, producing a pulse of 10 ms duration. This impulse through the circuit 2 2I-N does not control the key 35, shorting the positive feedback circuit. the pulse duration of the one-shot 33. During this time, the amplitude of the resonant oscillations reaches its maximum value and the process repeats. Since the upper threshold of operation of the first comparator 15 is equal to the potential at the output of the memory peak detector 31, but from the pulse at its output it is necessary to subtract the non-attenuating oscillation time of sample 2, which occurs when the one-shot 33 output is connected to the counter input of the comparator 15, the comparator 15 is turned off the duration of the action — the pulse of the waiting one-vibrator 33. The pulse duration at the outputs of the comparators 15–19 is equal to the damping time of the oscillations of sample 2 from an amplitude equal to the value of the threshold of its threshold to gilplita equal to the value of the lower threshold level, is converted into voltage by converters 20 - 24 dc-voltage, which is fed to the corresponding inputs of blocks 25-29 multiply, to the second inputs of which voltage-voltage, 11, is applied, proportional to the frequency of resonant oscillations of sample 2. Signal from the outputs. Multiplication blocks 25-29 are fed to the inputs of a multichannel recorder 30, drawing graphs of the time dependence of the internal friction (damping factor) at different amplitudes of sample 2. When a comparison voltage is applied to the input of the unit 8, the linearly varying voltage generator 37 is fed through the contacts of the switch 38 and connecting the inputs of the VZZ of the two-coordinate recorder 14 through the switch 39 to the output of the detector 7 and the output of the multiplier 25 of the first channel of the multichannel analyzer, respectively, the second two-coordinate The il4 automatic recorder will detect the dependence of the internal friction on the amplitude of the oscillation of sample 2, and in the case of connecting the reference voltage switch 38 to the comparison unit 8 and connecting the thermocouple 3 through the switch 39 to the input of the second two-coordinate recorder 14, the internal friction of the sample 2 will be recorded .

The signal of the frequency-voltage converter 11 is fed to the input of the quad 12, which produces a voltage proportional to the modulus of elasticity image | Ca 2. Under this action, the voltage goes to the input of a two-axis recorder 13, plotting the dependence of the elastic modulus on temperature, and the second input of the recorder .13 is connected to thermocouple 3. Thus, the process of measuring internal friction occurs periodically with a repetition rate F l / St + 10 ms, where T is the sample oscillation damping time, which is the maximum achievable scab measurement and consequently possible to achieve significant heating of the sample rate, which dramatically reduces the research material to the minimum possible.

The use of a generator of linearly varying voltage 37 makes it possible to measure the amplitude dependence of the internal friction of the sample automatically, which also significantly increases the measurement speed.

I:

Thus, the speed of testing on this device can be increased several times (2-10) depending on the test conditions.

7 Changing the damping factor using this device instead of measuring the amplitude of the exciting forces significantly increases the sensitivity of measuring the internal friction of High Q samples of materials.

Claims (1)

AUTOMATIC DEVICE FOR REGISTRATION OF TEMPERATURE DEPENDENCES OF THE ELASTICITY AND INTERNAL MODULE — I OF ITS FRICTION OF THE SAMPLE OF THE MATERIAL IN STUDY, containing a block for heating the sample, thermocouple, pathogen. oscillations of the sample, series-connected measuring transducer, amplifier, detector, unit, comparisons, integrator and adjustable amplifier, the second input of which is connected to the output of the amplifier, series-connected converter ·. frequency-voltage connected to the amplifier output, a quadrator and a first two-coordinate recorder, the second input of which is connected to a thermocouple, and a second two-coordinate recorder, with the aim of increasing the accuracy and speed and expanding the 'functionality, it is equipped with a multi-channel analyzer, each channel of which is made of a serial, but connected comparator, * duration-voltage converter and' multiplication unit, connected to the analyzer's benefits by a multi-channel self with a detector connected in series with a peak detector and a threshold level generator, connected in series with a single vibrator connected to the output of the comparator of the last channel, a 2OR-NOT circuit and a key, the second input of which is connected to the output of the adjustable amplifier, and the output to the sample exciter, a start-up circuit connected to the second input of the 2OR-NOT circuit, connected in series by a ramp generator and a switch, the second input of which is connected to the X source · g reference voltage source, and the output is connected ^ to the second input of the comparison unit, a switch, the first input of which is connected to the output of the detector, the second input - with a thermocouple, and you -. move - with the first input of the second two-coordinate recorder, the second input of which is connected to the output of the multiplication unit of the first channel, the output of the detector is connected to the first inputs of the comparators. of each channel and peak detector, each output of the threshold level generator is connected to the second and third inputs of the comparators of each channel pair, the output of the peak detector is connected to the third input of the comparator of the first channel, and the second inputs of the multiplication units are connected to the output of the frequency ·-voltage converter. -