SU1647347A1 - Apparatus for strength testing of specimens of materials - Google Patents

Abstract

The invention relates to a technique for testing materials, in particular, devices for the triaxial unequal compression of rock samples and other materials. The purpose of the invention is to expand the operational capabilities by providing an increase in loading forces and testing samples of various sizes. In the closed case 1, three sides of which

Description

The invention relates to a technique for testing materials, in particular, devices for the triaxial unequal-component compression of rock samples and other materials.

The purpose of the invention is to expand the operational capabilities by providing increased loading forces and testing samples of various sizes.

The drawing shows the stand for the strength tests of the sample material.

The stand contains a base made in the form of a closed case 1, three mutually perpendicular faces intended for contact with faces of sample 2, pressure plates 3 for loading sample 2, mounted in case 1, in three mutually perpendicular directions, base plates 4 mounted in housing 1 parallel to pressure plates 3, roller rolling bodies 5 mounted on pressure and support plates 3 and 4 facing one another, load devices made in the form of wedges 6 with springs 7 installed x between the plates 3 and 4 with the ability to move over the rolling roller bodies 5, and the hydraulic cylinders 8, the rods of which are connected to the wedges 6, and the bodies are fixed on the base, and additional wedges 9 of the pressing installed with the possibility of moving between the support plates 4 and the inner surface of the faces of the housing 1.

The movement of the wedges 9 is carried out with the help of the screw 10 of the pressing. Wedges 6 and 9 and plates 3 and 4 are joined in case 1 by clamping

I screws 11 and springs 12. To body 1

cover 13 is attached.

The test bench also contains a hydraulic system connected to the cavity of the hydraulic cylinders 8, including a pump 14, a tank 15 connected to it with a working fluid and a valve block 16, and pressure gauges 17 installed on the pipelines 18,

The stand is located on a transport trolley (not shown).

The test specimen 2 of the rock is placed into the cavity of the housing 1 and closed with the lid 13 with screws associated with the wedges 9, which ensures preliminary pressing of the sample 2 along the axes X-X and YY, which reduces the accuracy requirements of the sizes of the rock specimens. and, if necessary, resize them, as well as reduce the stroke of the pistons of the hydraulic cylinders 8 and wedges 6. After performing the pressing by opening the valves of the block 16, the discharge line of the pump 14 is connected to the corresponding hydraulic cylinder 8, the stem of which is displacing the brackets of wedges 6, loading sample 2 through one pressure plate 3 in one of the directions. After a predetermined pressure has been established, which determines the magnitude of the loading force in each direction and is controlled by means of an appropriate pressure gauge 17, the valve is closed. In case of equiaxial loading of sample 2, all valves of block 16 are opened simultaneously.

After the test is completed, the pump 14 is turned off, the valve of the block 16, which connects the pressure line to the tank 15, is opened, and the hydraulic cylinders 8 are opened.

the cavity of the hydraulic cylinders 8 is reduced to atmospheric and the wedge 6 together with the rods and pistons of the hydraulic cylinders 8 are moved by the action of the springs 7 to the initial position.

The use of wedges 6 in the load devices moving along the rollers 5 rolling over the corresponding surfaces of the plates 3 and 4 allows a significant increase in the magnitude of the loading forces.

Claims (1)

Invention Formula A bench for testing the strength of a material sample containing a base, pressure plates for the sample mounted on it in three mutually perpendicular directions, sample plates, rolling roller bodies located on the surfaces of pressure plates and base plates, and loading devices associated with pressure pads, which, in order to expand operational capabilities by providing increased loading forces and testing samples of various sizes, the base is made in the form of a closed body, three mutually perpendicular edges of which are intended to contact with the faces of the sample, the load devices are made in the form of spring-loaded wedges installed between the support 5 and pressure plates that can be moved around the roller rolling bodies, and hydraulic cylinders, the rods of which are connected to the wedges, their bodies are fixed on the base, and the stand is equipped with additional pressing wedges that are mounted so that they can move between the support plates and the sides of the body.