SU1278665A1 - Device for tensile tests of ring specimens - Google Patents

Abstract

The invention relates to a testing technique and can be used to determine the strength of a material when stretching an annular sample. The aim of the invention is the expansion of technological capabilities by providing tests at high temperature. The device contains pulls 1 and 2, one ends of which are intended for fastening in the grippers of a bursting machine, half-disks 3 and 4, mounted on the second ends of stages 1 and 2 and placed when tested inside the test sample 5, a gasket in the form of four arched elements 6-9, mounted in pairs on working surfaces of half disks 3 and 4 with the possibility of their movement along the working surface. In the process of stretching sample 5 under conditions of high temperature, the arcuate elements 6-9 of the gasket move with the sample along the working surface of the half-disks 3 and 4, preserving the radius of curvature of the test sample 5 in the transition zone and ensuring uniformly distributed pressure on the inner surface of the sample 5. 2 Il.

Description

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The invention relates to a testing technique and can be used to determine the strength of materials when stretching ring specimens.

The aim of the invention is the expansion of technological capabilities by providing tests at high temperature.

FIG. Figure 1 shows the device in the process of stretching a sample, front view; in fig. 2 - the same, before the test, side view.

The tensile tester for ring specimens contains traces 1 and 2, one ends of which are intended to be mounted in the grippers of a tensile machine (not shown), half disks 3 and 4 mounted on the second ends of ribs 1 and 2 and placed when tested inside the test piece. sample 5, and a pad made of four arcuate elements 6-9, mounted in pairs on working surfaces of half-disks 3 and 4 with the possibility of movement along their working surface.

The device works as follows.

Before installing sample 5, a lubricant layer is applied to the inner surface of arcuate elements 6-9 and to the working surface of half disks 3 and 4, for example, high-temperature boron carbonitride is used for testing at temperatures up to 2000 ° C. The presence of lubricant provides a reduction in the coefficient of friction between the arcuate elements 6–9 of the gasket and half-disks 3 and 4 in comparison with the magnitude of the coefficient of friction between the surface of the test sample 5 and the arcuate elements 6–9. This allows, in the process of deforming the sample 5, the arcuate elements 6-9 to maintain their position relative to the sample surface and at the same time to be able to move relative to the half-disks 5 and 4. In this way, the device prepared for testing is installed on the sample 5

the arcuate elements 6–9 are applied to the surface and a tensile load is applied to the tons 1 and 2. Through the half discs 3 and 4 and the arcuate elements

5 6-9 tensile load is transferred to the ring sample 5 and it is deformed during the deformation process and stretching the sample 5 moves together with the arc-shaped elements 6-9 against the working surface of the half-disks 3 and 4. In this case, the arc-shaped elements 6-9 are partially, extends beyond the half-discs 3, 4, preserving the radius of curvature of the test sample 5 in the zone transitional from the annular part to the straight line formed on the sample as a result of its stretching. When tested under conditions of high temperatures, elements 6–9 ensure a constant uniformly distributed pressure on the internal surface of sample 5, since the stress concentration from indentation of the material is excluded.

5 pads per sample material and half discs.

Claims (1)

Invention Formula 30 A device for testing tensile ring specimens for a disintegrating masquerade containing rods, one ends of which are intended to be mounted in the grips of the disintegrating machine, 5 half discs mounted on the other ends of the g and placed when tested inside the test specimen and the gasket installed on the side working surfaces of the half disks and jj designed to interact with the inner surface of the test specimen, characterized in that, in order to expand the technological capabilities of the flow, to ensure testing and a high temperature, frictional pad made of four arcuate elements are pairwise mounted on the side working surfaces of the half-disks, with census Places along their work surface.