SU1608470A1 - Installation for testing specimens for strength in complex stressed state - Google Patents

Abstract

The invention relates to a testing technique, namely to testing for strength. The purpose of the invention is to expand the operational capabilities by creating a flat volumetric stress state and deforming the counterpiece from two directions to different values of deformations without creating a displacement of the sample relative to the counterpiece at the loading stage. The cylindrical sample 12 is placed inside the contour 4. With the help of hydraulic cylinders 2,3,7,8,14,15, volumetric loading of the sample 12 and the counterpiece 4 is carried out. The movement of the sample relative to the contraband is carried out by applying different pressures in the cavity of the hydraulic cylinders 7 and 8. 1 silt

Description

The invention relates to a testing technique, in particular to tests for strength.

The purpose of the invention is to expand exploitation capabilities by creating, along with a flat bulk stress state and deformation of the counterpiece from two directions to different values of deformation without creating a displacement of the sample relative to the counterpiece at the loading stage.

The drawing shows the installation diagram.

The installation contains frame 1, radial grips 2 and 3 of counterpiece 4 placed in it, loading mechanism in the form of hydraulic cylinders 5 and 6 connected to radial grippers (only one pair of coaxial cylinders 5 and 6 is shown, the remaining pairs of cylinders are circumferentially in the plane, perpendicular drawing plane), an axial movement mechanism in the form of a pair of coaxial hydraulic cylinders 7 and 8 with rods 9 and 10, axial grips 11 of sample 12, interacting with the moving mechanism, and a source 13 of fluid pressure.

The installation is equipped with two additional hydraulic cylinders 14 and 15 that are mounted movably on frame 1, the facing ends of which are designed to interact with counter piece 4, and the pistons are designed as hydraulic cylinders 7 and 8. Rods 9 and 10 of coaxial hydraulic cylinders of the movement mechanism are connected to grippers 11 sample, and additional hydraulic cylinders are connected to pressure source 13.

The cylinders 7 and 8 are fixed to the frame on the rods 16. The pressure source 13 is connected to the cylinders by means of valves 17-20. Counterpiece 4 is tubular and a cylindrical sample 12 is placed inside it.

The installation works as follows.

From the pressure source 13, the valves 20 use hydraulic cylinders 5 and 6 to create lateral compression of the counter piece 4. The deformation of the counter piece in the radial direction causes lateral compression of the sample 12. By applying pressure from the source 13 through the valves 20 and the channels in the rods 16, they move the rods 9 and 10 and Through the grippers 11, an axial load is applied to the sample 12. The hydraulic cylinders 14 and 15 are moved through the valves 19 from the pressure source 13 and the counterpiece 4 is loaded with axial force. To displace the sample 12 relative to the counterpiece 4 through the valve

17, one of the cylinders 7 or 8 increases the pressure and simultaneously, through the valve of the other cylinder 8 or 7, the pressure is reduced before the sample 12 begins to move. In the process of moving, the difference is fixed

pressures in these hydraulic cylinders and the amount of movement of the sample 12, which determine the work movement. During the experiment, the conditions for lateral reduction by hydraulic cylinders 5 and 6, axial reduction by hydraulic cylinders 14, 15 and 7, 8 are changed.

The levels of loads are chosen in accordance with the level of real loads, for example, in accordance with the axial and lateral pressure on the walls of the well (for counterpiece 4) and in accordance with the load on the object moved in the well (for sample 12). Similarly, set the load when modeling the displacement of the layers in the mountain range.

Claims (1)

DETAILED DESCRIPTION An installation for testing specimens for strength in a complex stress state comprising a frame installed on it in pairs opposite radial grips for the counterpiece, the associated mechanism for creating a radial load in the form of coaxial hydraulic cylinders mounted on the frame according to the number of clamps, axial grippers for the sample, the mechanism for axial movement of the sample in the form of a pair of coaxial hydraulic cylinders placed on opposite sides of the axis of the radial grippers, and the source of the medium communicated with the hydraulic cylinders, in order to enhance operational capabilities by creating a flat volumetric stress state and deformation of the counterpiece from two directions to different values of deformations without creating displacement of the sample relative to the counterpiece during the loading stage; it is equipped with a coaxially mounted E movable along the axes of the frame are additional hydraulic cylinders, the ends of which are facing towards each other and are intended to interact with the ends of the counterpiece, and the pistons are made in the form of axial hydraulic cylinders movements whose rods are associated with the specimen grips.