SU688819A1 - Device for investigating the dynamics of destruction of electroconductive materials being deformed - Google Patents

Description

The invention relates to the field of testing materials and can be used to study the development of microcracks in the initial stages of the destruction of electrically conductive materials.

A device is known for studying the dynamics of the destruction of deformable electrically conductive materials, containing, its DC power source and a resistance meter of sample 1.

The closest to the invention in technical essence and the achieved effect is a device for studying the dynamics of the destruction of deformable electrically conductive materials, containing a power source, power supply and measuring current leads attached to the sample, and a measuring unit made in the form of a measuring instrument for changes in the current in the sample 2.

However, these devices have low sensitivity, since the useful signal recorded by the direct current is comparable with the values of the thermoelectromotive force arising at the installation points of the current leads, with interference in the communication lines and with internal noises and the zero drift of the meters used.

The aim of the invention is to increase the sensitivity.

For this, the proposed device is equipped with additional supply and measuring current leads, mounted on the second sample, identical to the first, but not subject to destruction, power source made in the form of a variable frequency alternator with an output transformer having two identical output windings, each of which is connected to supply current leads of the corresponding sample, and the measuring unit is designed as a measuring transformer, the input winding of which is connected along consequently, with the measuring currents of the supply of both samples, a selective amplifier, the input of which is connected to the output winding of the measuring transformer, and a phase-sensitive detector connected to the output of the amplifier.

The drawing shows the block diagram of the device.

The device contains a power source, made in the form of a generator / alternating current, whose frequency is stabilized, for example, by a quartz master oscillator (not shown) with an output transformer 2 having two identical output windings 3 and 4, supplying current conductors 5 to 6 fixed to have experienced

to the sample 7, the supplying current leads S and I fixed on the second sample 10, identical to the nerve, measuring current leads //, 12, 13 and 14, fixed respectively on samples 7 and 10, the measuring transformer 15 with the input and output windings 16 and 17 , a selective amplifier 18, tuned to the oscillator frequency /, and a phase-sensitive detector 19. Winding 3 is connected to current diodes 5 and 6, winding 4 is connected to current leads 8 and 9, winding 16 is connected in series with current leads 13 and 14, and winding 17 is connected to input amplifier 18. Phase-sensitive children Ktorov 19 connected to the output of amplifier 18. Current source izbnratelnogo 11 and 12 are interconnected.

The device works as follows.

Samples 7 and 0 are placed in a test chamber and secured in appropriate grips of the test machine (not shown). On the samples, current leads 5, 6, 8, 9, 11, 12, 13, and 14 are fixed. Through, samples 7 and 10 pass an alternating current of a stabilized frequency from the generator /, and an electrical signal is received at the output of the phastoWach detector 19 corresponding to the current electrical resistance of sample 7. As the frequency of the generator / can be made high, the speed of the device is sufficient to record the process of the formation of microcracks and all stages of sample destruction.

The use of the device makes it possible to significantly increase the sensitivity of experimental facilities for studying the dynamics of the process of destruction of electrically conductive materials. The device is characterized by low sensitivity to amplitude and form of supply voltage from generator 1, high noise immunity of the whole measuring path, and ease of maintenance.

Claims (2)

1.Ivanova V.S. Fatigue destruction of metals. M., Metallurgizdat, 1963, with. 126-129. 2. USSR author's certificate number 246901, cl. G 01 B 7/16, 1968 (prototype). Utj