SU81207A1 - Instrument for determining linear deformations during mechanical testing of materials - Google Patents

Description

Strain gauges are known for simultaneously measuring both linear strain and shear strain when testing materials. These devices do not provide simultaneous measurement of various types of deformation.

In the proposed device, this drawback is eliminated by the fact that a system of sensitive measuring measuring rods based on prisms is installed on the deformable surface of the object under investigation.

Such a device makes it possible to simultaneously explore a series of points on a limited surface area of the object under study. In order to increase the number of points studied, one instrument design can be replaced by a dual gauge.

FIG. 1 shows the proposed device; in fig. 2-node L; in fig. 3-bottom unit with scales, plan view; in fig. 4hekhem two-meter device.

The frame of the device is made of two nlnt-upper J, lower 2 n central tension rods 3, connecting both plates and ending at the bottom under the lower plate with a fixed tip. Under the bottom plate, there are also movable prisms 4. Each prism has a tip at the bottom with which it enters the material under test, and at the top there is a spherical head with which it rests against the centering hole of sub 5 (Fig. 2) pressed into the plate. Each prism is attached to the collar 6, which passes through the corresponding holes in the bottom plate and ends with the rod 7, the upper end of which through the spring 8 and adjustable suspension 9 is attached to the top plate.

When the device operates under T1 loading, due to the deformation of the material being studied, the prism 4 rotates around its support point into the slab. When this happens, the rod 7 rotates. When the device is in a non-operating state or is just being installed, the spring 8 is kept in a tight state and this keeps the rod 7 in the normal state.

L 81207-2 position-perpendicular to the plates / -2. When the device is already installed on the test sample and the bottom plate 2 is clamped to the last clamp ,. The rod is released by unscrewing the suspension 9 and disengages from the rod. The rod makes it possible, without resistance on the part of the rod, to make the turns of the upper end, when the prism, due to the deformation of the test specimen, turns its plate around the pivot point. Lever 10 is attached to the upper part of the rod, it (the real purpose is to direct the movement of the arrow 11 when the end of the rod makes different movements.

The lever is connected to the rod pivotally, with the arrow the lever is connected through a special head 12 using a ball joint. Such a connection completely ensures the correct operation of the arrows and their turns in the corresponding directions after the turns of the upper end of the rod.

The head of the arrow on top is trimmed on the tip and connected to the holder 13 by means of a fine bristle. Such connection provides free turns of an arrow.

For adjusting the arrow, a special regulator 14 consisting of an eccentric, a strip and a micrometric screw is provided in the upper part of the holder, above the upper plate.

The method of deformation counting is as follows; on the bottom plate, around the intended zero point, the arrow (in the adjusted state) shows a circular scale 16 with radial divisions from 0 to 360 °. In the center of the circle there is a hole in the slab, in which the arc (linear) scale rotating around оси axis is rotating. This scale can be removable and can be installed for the duration of the device operation. When the device is working under load and the arrow is shifted, then the arc scale rotates around its axis at the end of the arrow, and linear displacements of the arrow end are counted on the arc scale, and angular displacements are counted on the degree scale.

In order for all, without exception, the tips to be properly iris to the sample to be tested, the adjusting screws near each tip are provided in the clamps.

To increase the measuring points, the device can be made in the form of two Rus (Fig. 4).

Subject invention

1. An instrument for determining linear deformations during mechanical testing of materials, characterized in that, in order to measure linear deformations and shear deformations for a series of points or fibers, it is made in the form of a collapsible structure pressed by clamps to the deformed surface of the object under study and consisting of upper and lower plates, rigidly fastened by a tie rod and equipped with a series of measuring rods located between them, the lower ends of which are fixed in prisms, and the upper ends of the lever The sam ples are attached to index arrows intended for counting the linear displacements of points of the deformable surface on movable linear scales and the angular displacements of the same points on circular slots with radial divisions.

2. Device change according to n. 1, characterized in that, in order to further increase the number of points studied on the deformable surface, it is made two-dimensional.

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