SU1262332A1 - Device for testing specimens of rock with triaxial compression - Google Patents

Description

one

The invention relates to a technique for testing materials, in particular, devices for testing rock samples. For triaxial uneven compression.

The purpose of the invention is to improve the accuracy of determining the deformation characteristics of rocks

FIG. Figure 1 shows a device for testing rock samples under triaxial compression; in fig. 2 shows section A-A in FIG. one; on figo 3 floors cylinder; fig - section BB nafig, 3; Fig 5 is a section bb In figo Zo

The device contains a support plate 1, rigidly connected to the frame 2, a rigid closed holder 3 with guide grooves, contact plates 4 for sample 5, mounted with the possibility of movement in the grooves of the holder 3, welded 6, load-protecting clips 7 installed with the ability to move along the guides 6, screw jacks 8 mounted on frame 2 and having articulated joints with load-carrying holders 7, base 9 for mounting sample 5, elastic elements in the form of hollow steel cylinders 10 with transverse discontinuous rims Res E installed inside the load-guard ring 7 coaxially their axes and in contact with the contact plates 4, differential transformer displacement sensors 11 disposed in the hollow cylinder 10 coaxially them. axes, and ultrasonic sensors 12 installed in the cavity of the contact plates 4.

A support plate 1 and a removable plate 13 with an aperture 14, which are used during the passage of the press shaft, transmitting the vertical load, serve as guides for the load safety clips 7 in the vertical plane.

On the contact plates 4 there are cylindrical protrusions 15 arranged with gaps 16 and 17 between the closed ferrule 3 and the ends of the corresponding load and security clips 7. The magnitude of the gap 16 has a fixed value ensuring the operation of the hollow cylinders within the elastic region of their deformation. Clearance 17 is for limiting 623322

nor the stroke of the contact plate 4 in the direction of the test sample 5,

To record the deformation characteristics of sample 3, use a force transmitter and a recorder (not shown) associated with sensors P.

The device works as follows.

When the screw jacks of the 8 load-security cages 7 with contact plates 4 are removed, a test specimen 5 is placed on the base 9 of the rigid closed casing 3 on the base 9 of the rigid closed casing 3. The contact plates 4 are brought into contact with the lateral surfaces of the specimen 5. At the same time, depending on the conditions of the test, sample 5 is preliminarily pumped with uniform biaxial or uneven lateral pressure or contact plates 4 are left in contact with side edges. 5 without preliminary side loading. After these operations, sample 5 is given a vertical load through the press rod with vertical deformations measured by displacement sensors 11 and the load on the sample is adjusted 5

30 to destruction in steps. At each step of loading, the velocities of propagation of the longitudinal waves are measured by ultrasound sensors 12.

5 B the process of loading the sample 5 with a vertical load is its bulk deformation. The movements of the faces of sample 5 are transmitted through the contact plates 4 of hollow steel cylinders 10, which are elastically deformed, which makes it possible to estimate, using differential transformer sensors 11, not only displacements of sample 5 under triaxial uneven compression, but also the stresses appearing on its faces. . Signals from differential transformer sensors 11 proportional to hollow steel deformations

Claims (1)

5 cylinders 10, through an amplifier arrive at the recorder. The alignment of hollow steel cylinders 10, displacement sensors 11 and the applied lateral load improves the accuracy of measured deformation values and stresses. The joint operation of hollow steel cy-:, ShchNDrov 10 and displacement sensors 11 allows one to obtain-- the necessary results in coordinates displacing the stress up to the brittle fracture of the specimen. Claims A device for testing rock samples under triaxial compression, comprising a base plate, a rigid closed cage with guide grooves, contact plates for the sample, mounted for movement in the grooves of the clip: load jacks associated with contact plates, and displacement sensors , characterized in that, in order to increase the accuracy of determining the deformation characteristics of rocks, it is equipped with load-protecting clips located between the load jacks and the contact and plates, guides for the load-protective clips and elastic elements in the form of hollow steel cylinders with transverse discontinuous slots installed inside the load-protective clips and in contact with the plates, while the movement sensors are located on the axis of the hollow cylinders, and on the contact plates are made cylindrical protrusions located with gaps between the closed cage and the ends of the corresponding load-protecting clips,