SU139124A1 - Instrument for determining the characteristic of elastic and other properties of wire samples and microlenta - Google Patents

Description

Instruments are known for determining the characteristics of an elastic after-effect, an oscillation damping, an elastic limit, and a shear modulus for samples of wire and microlent that are subjected to complex stresses at different ambient temperatures during the test, which contain a loading mechanism, specimen anchors and an optical device for measuring specimen deformations. However, in such devices it is difficult to test different properties on the same sample.

In the described device for testing these properties on the same specimen with joint torsion and stretching up to elevated stresses, the loading mechanism is designed as a cargo plate with interchangeable weights to stretch a vertically suspended test specimen. This sample is twisted to a predetermined angle by means of a fork lever, which is engaged with a transverse, fixed on the sample, when measuring the elastic aftereffect, as well as the elastic limit, and disengaged after preliminary twisting, when measuring the oscillation damping and the specimen shear modulus. To tighten the test specimen before measuring the damped oscillations and to accurately set the autocollimation tube of the optical device, the upper grip of the device is fixed in the swivel head to rotate the upper and lower grips and the test specimen with a cross bar at a given angle.

FIG. 1 shows the device; in fig. 2 is a view along arrow A in FIG. 7

A device for determining the characteristics of wire samples and microlents consists of a base), a stand 2, a loading mechanism 3, a swivel head 4 mounted on the top platform of the 5 stand.

No 139124 2 optical device 6 with autocollimation tube 7 and detachable muffle electric furnace 8.

The wire sample 9 to be tested is fixed in the upper 10 and lower // collet grips, after which it is twisted to the required angle by means of the fork lever / 2, rotated by the handwheel 13 through the worm gear 14, the pins 15 of which are engaged with the cross member 16, fixed on the bottom grip //. The tensile deformation of the sample 9 is obtained by superimposing interchangeable loads 17 on the cargo plate 18. The magnitude of the residual deformation is determined with the help of a mirror fixed in the holder 19 and the tube 7 by the zero method by rotating this pipe mounted on the lever 20 using a micrometric screw 21 reference carriage 22.

When measuring the damping of oscillations, sample 9 is twisted with the aid of a collet 23 clamping the rod 24 of the upper gripper 10 and turning the handwheel 25 through the flexible shaft 26 and the worm gear 27. To release the sample 9, it is necessary to press the handle 28, after which the lever 12 lowers, withdrawing the pins 15 are engaged with the cross bar 16. The amplitude of the torsional vibrations that occur is also measured with the aid of a tube 7.

Installation on the top platform 5 of the muffle furnace 8 makes it possible to carry out experiments at different temperatures, the range of which can be extended by replacing the furnace 8 with a refrigerator.

The described device makes it possible to produce a wide range of studies of the properties of wire and microlent from ferrous and non-ferrous metals, both already known and when creating new spring materials. The accuracy of measurements made with the instrument is very high and is 4 (for the angle samples), as a result of which the characteristics obtained in subsequent calculations are very close to reality.

Subject invention

Claims (2)

1. Instrument for determining the characteristics of elastic after-effects, oscillation damping, elastic limit and shear modulus of wire and microlent samples subjected to complex stresses under test conditions at different ambient temperatures, containing a loading mechanism, specimen grips and an optical device for measurement of the strain of the specimen, characterized in that, in order to test the indicated properties on the same specimen with joint torsion and stretching, up to Its loading mechanism is made in the form of a cargo plate with interchangeable weights for stretching a vertically suspended test specimen twisted at a predetermined angle by means of a fork lever coupled with a transverse response fixed to the specimen as well as the elastic limit and uncoupled after preliminary twisting when measuring the damping of the oscillations and the modulus of shear of the sample. 2. An apparatus according to claim 1, characterized in that, in order to twist the test sample before measuring the attenuation of the oscillations and to accurately set the autocollimation tube of the optical device, the upper grip is fixed in the swivel head for turning the upper and lower grippers to a predetermined angle and the test sample with cross bar. fuz.l fuz.Z View 25