RU2425352C2 - Installation for strength test of samples of equivalent materials - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: installation for strength test of samples of equivalent materials consists of case, of hollow matrix positioned in case, of grippers in form of two flexible bent plates for securing on opposite surfaces of sample in cavity of matrix and of drive for transfer of plate along walls of cavity. According to invention it has the second drive for transfer of the plate along walls of the matrix, two rigid carriages with elements of their connection with the corresponding plates and with the matrix; also, each drive is connected to one plate.

EFFECT: tests at loading sample with both pull out and shearing and combined pull out and shearing forces.

1 dwg

Description

The invention relates to testing equipment, to tests for strength, mainly of samples of equivalent materials used in the simulation of physical and mechanical processes in a rock mass. The invention is also applicable when testing rock samples and other materials in the power work of which the proposed loading conditions are present.

A known installation for testing the strength of samples of materials (RF patent No. 1388751, class G01N 3/08, 1988), comprising a housing placed in the housing of a hollow matrix, grips for fixing on opposite surfaces of the sample, located in the cavity of the matrix, and a drive for moving the plates along the walls of the cavity.

The disadvantage of the installation is that it is not feasible to test when loading the sample with both tear-off and shear and together tear-off and shear forces.

A known installation for testing the strength of samples of materials (RF patent No. 1490558, class G01N 3/08, 1991), comprising a housing, a hollow matrix placed in the housing, grips in the form of two elastic curved plates for fixing on opposite surfaces of the sample, placed in the cavity matrix, and the drive moving the plates along the walls of the cavity.

The disadvantage of the installation also lies in the fact that it cannot carry out tests when loading a sample with both tear-off and shear forces and jointly tear-off and shear forces.

A known installation for testing materials for torsion fatigue (Patent examination decision on the grant of a patent on application 4934077/28/038684, G01N 3/32, dated 05/06/1991), adopted as a prototype. The installation comprises a housing, a hollow matrix placed in the housing, grips in the form of two elastic curved plates for fixing on opposite surfaces of the sample, placed in the cavity of the matrix, and a drive for moving the plates along the walls of the cavity.

The disadvantage of the installation also lies in the fact that it cannot carry out tests when loading a sample with both tear-off and shear forces and jointly tear-off and shear forces. Such a power regime is experienced by the layers of the model from equivalent materials, when during the development of the model there is a separation of the layers sequentially from each other and mutual displacement directly in the process of separation. This is especially true for inclined models, in which the ratio between the tear-off and shear forces directly depends on the angle of inclination of the model layers. The lack of information on these issues significantly limits the amount of information obtained by modeling on equivalent materials.

The technical result of the invention is to increase the amount of information by conducting tests when loading a sample with both tear-off and shear forces and together with tear-off and shear forces.

The technical result is achieved by the fact that the installation for testing the strength of samples of materials containing a housing placed in the housing of a hollow matrix, grips in the form of two elastic curved plates for fixing on opposite surfaces of the sample, placed in the cavity of the matrix, and a drive for moving the plates along the walls of the cavity, according to the invention has a second drive for moving the plates along the walls of the matrix, two rigid carriages with elements connecting them to the respective plates and with the matrix, with each drive oedinen one plate.

The drawing shows the installation diagram.

The installation for testing the strength of samples of materials contains a housing 1, a hollow matrix 2 placed in the housing, grippers in the form of two elastic curved plates 3, 4 for fixing on opposite surfaces of the sample 5, placed in the matrix cavity, and a drive 6 for moving the plates along the walls of the cavity.

The installation has a second drive 7 for moving the plates along the walls of the matrix, two rigid carriages 8, 9 with elements 10 for connecting them to the plates and with elements 11 for connecting them to the matrix. Each drive 6, 7 is connected to one plate 3, 4.

Drives 6, 7 are made hydraulic and connected to the pumping station 12.

Installation works as follows.

To bring the installation to its original position, shown in the drawing, connect the ends of the elastic elements 3, 4 with the respective carriages 8, 9 using fasteners 10. Attach the sample 4 to the walls of the elastic elements 3, 4 for example, with glue and install the sample, carriages and elastic elements in the cavity of the matrix, as shown in the drawing. To test the sample for shear, the elements 11 connect the carriages 8, 9 with the matrix 2, remove the elements 10 and disconnect the cutters and elastic plates. The station 12 is turned on and the elastic plates 3, 4 are moved by drives 6, 7 in opposite or opposite directions. To test the sample for clean separation, the plate 4 is disconnected from the carriage 9, the carriage 9 is connected by elements 11 to the matrix 2 and the plates 4 are moved synchronously downwards (according to the drawing) by the plate 6, sample 5, plate 3 and carriage 8. The plate 4 is shifted relative to the carriage 9 and due to the elastic recovery of bending deformation, tears one part of the sample from the other part starting from the lower end of the sample. To detach the sample from the upper end, the described actions are carried out with the plate 3. For tests for shear separation, they act in the same way as in the clean separation test, but the plates move the drives at different speeds with the drives.

The installation provides testing under new conditions - when loading the sample with both tear-off and shear forces and jointly tear-off and shear forces. This significantly increases the amount of information when modeling geomechanical processes on models of equivalent materials in the study of the destruction of layered objects such as elements of a rock mass.

Claims (1)

Installation for testing the strength of samples of equivalent materials, comprising a housing, a hollow matrix placed in the housing, grips in the form of two elastic curved plates for fastening on opposite surfaces of the sample, placed in the matrix cavity, and a plate moving drive along the cavity walls, characterized in that it has a second drive to move the plate along the walls of the matrix, two rigid carriages with elements connecting them to the respective plates and the matrix, with each drive connected to one plate Noah.