SU109501A1 - A device for recording the deflection of a cantilevered material sample when tested for fatigue strength - Google Patents

Description

The subject of the invention is a device for automatically recording the curves of changes in the deflection of a cantilever core sample of a material tested on a machine (in particular, TU-8) to determine fatigue strength.

The known devices of the same type and purpose, equipped with a differential inductive sensor for converting the mechanical deformation of the test specimen into electrical impulses recorded by the measuring device, do not automatically record changes in the deflection deformation of the test specimen from the moment of the appearance of fatigue cracks until its destruction.

In the device described below, this drawback is eliminated by the fact that the measurable differential inductive sensor is rigidly welded with a turntable with a load lever of the loading device of the testing machine, acting through a spring damper and bearing on a cantilever test specimen with a subsequent self-detecting potentiometer or millivoltmeter.

FIG. 1 shows a general view of the device and a diagram of its loading; in fig. 2 shows the electrical circuit of the instrument.

The device consists of a differential inductive sensor, measuring and electrical circuits of the sensor and the measuring device.

The sensor consists of two cores 1 and 2, having a U-shaped and recruited from sheet iron; Both cores are fixed on a common base. On each of the cores there are two fixedly fixed coils with the same number of turns. Due to the willingness to turn on the coils on each of the cores, their floor is folded, the cores are measles-3, recruited from a .Christ tin.

The sensor anchor is fixed on the lever 4 of the system loaded sample. During the deflection of sample 5, mixing of the core occurs; in the case of a core moving at a constant voltage supplying the sensor arms, a change in resistance in them will cause a change in the current difference, which is noted by the measuring device.

As a measuring circuit, a phase-sensing ulnary rectifier circuit is used (Fig. 2), and it is possible to determine the magnitude and direction of the core from zero (average) by.: (Burned). The two arms of the bridge circuit are 6 gauge 7 n sensor; the other two arms are the secondary winding of the transformer 8, through which the device is powered by alternating current.

In the lust diagonal, the nerve windings of inductors 9 and 10 are connected, the current from the secondary windings of which is rectified by means of a selenium rectifier //. To the average points of the secondary windings of the inductors through the switch 12 and the sensitivity regulator 13 is connected measure the measuring device 14 (potential meter or millivoltmeter); The sensitivity regulator is the usual rheostat of the light.

The sensor and measuring instrument are powered from an AC mains through a 5 voltage / 5 ferroresonant voltage regulator. For a more stable stabilization of the voltage in the circuit, the Nitaush, the transformer 8 is installed, the boretterator 16 is installed. Through a load resistor R and a rheostat connected in series with the boretteter, current voltage and voltage are selected in accordance with the characteristics of the barrettor. The rheostat R also serves to adjust the voltage supplied to the transformer 8.

In parallel with the sensor threading circuit, the primary coil of the isolation transformer 17 is connected to the stabilizer 15, from the secondary winding of which the measuring device is powered.

The sensor is fixed to the cornea 18. By means of the micrometric screw 19, the sensor body, together with the cores, can be unmounted in the vertical direction, which makes it possible to increase the limits of the specimen and specimen deflection.

To the bearing of the bearing 20, put on the test specimen, a spring 21 is welded; at the lower end of the spring there is a nriten, on the nrizm of which the two-armed lever 4 rests. At one end of the lever is fixed on the roller 22, the insert} is inserted into the nodes. At the other end of the lever, a spring 23 is suspended with a load of 24 and a weight of 25. At the same end of the lever, measles are moved, moving between the cores of the sensor.

The holder of the core is made rotary around the axis 26, which allows for loading the sample after lowering the lever 4 to set the bark horizontally, and then fix the holder with a nut 27. A smooth lever is loaded with a screw 28.

G r d d e m ete 3 o bre n e n n

A device for recording the deflection of a cantilevered sample. Material for testing the effective strength provided with a differential inductive sensor for converting the mechanical deformation of the test sample into electrical impulses recorded by a measuring device, characterized in that, in order to automatically register changes in the deflection deformation of the test specimen. from the moment of the appearance of fatigue cracks to its destruction, the measles of the differential inductive sensor is rigidly connected with a rotary nlanka g nodes for biasing the lever unit isnytatelnoy maschnny nruzhinny acting through the damper and bearing on cantilevered test sample with posleduyush, s registrapiey encoder pulses by elektronpogo recording potentiometer or millpvoltletra.

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