SU1762172A1 - Device for strength test of material specimens - Google Patents

Abstract

The invention relates to testing equipment, to testing the strength of samples of materials. The purpose of the invention is to expand the operational capabilities by providing alternating load tests. The installation contains hydraulic cylinders 2 with pistons 10.9, rod 3, clamps 7.8, 11, 12, grips 4 for sample 5. Compressive or tensile loads are loaded from source 6 when one piston is connected to the rod, and the other is connected to a cylinder 2.1 il.

Description

and

Os Yu

VI

ND

The invention relates to a test technique, to test the strength of the material and product

A known installation for testing the material samples with a base, load carriers placed on it, each made in the form of a piston hydraulic cylinder with one large stem, specimen grips connected to the corresponding hydraulic cylinder stem, and a source of medium.

The disadvantage of the installation is that it is impossible to test it with alternating load.

The purpose of the invention is to expand the operational capabilities by providing alternating load tests.

This is achieved by the fact that the installation is equipped with a set of clamps for each piston relative to the cylinder body and the rod, and the source of medium is in communication with the cylinder cavity between the pistons.

The drawing shows the installation diagram.

The installation for testing the strength of material samples contains a base 1, loading machines placed on it, each made in the form of a two-piston hydraulic cylinder 2 with a common rod 3, grips A for sample 5 connected with the corresponding cylinder 3 of the cylinder, and a source b of the medium.

The installation is equipped with a set of clamps 7, 8 of each piston 9, 10 relative to the cylinder 2 of the hydraulic cylinder and clamps 11, 12 of the piston relative to the rod 3. The source 6 of the medium communicates with the cavity of the hydraulic cylinder 2 between the pistons 9. 10.

The clamps are made of electromagnetic and are connected to the pistons and to the housing by means of the grids 13, 14. The number of hydraulic cylinders depends on the number of loading axes. For sample 5, based on 1, the stop 15 is made.

The installation works as follows.

For loading the sample 5 with compressive forces, clamps 8 and 11 are connected and, respectively, piston 10 is connected to hydraulic cylinder 2, and piston 9 is connected to rod 3 on respective hydraulic cylinders.

Include the source 6 and serves pressure in the interpiston cavity of the cylinder. With this pressure, the piston 9 is moved in the direction of sample 5 and

loading the specimen by compression through the grippers 4. To unload the specimen over the corresponding axes, the locking mechanism 11 is turned off, as a result of which the rod loses contact with the loading piston 9 and the load on the specimen drops to zero. In order to carry out the unloading with subsequent loading by a force of the opposite sign, in particular, by stretching after compression, an axial compressive load is created, as indicated

above, then turn the latch 7, turn the latch 12 and turn off the clamps 11 and 8. The rod 3 is disconnected from the piston 9, the position of which is fixed on the cylinder, and connected to the piston 10. The pressure existing in the inter piston cavity moves the piston 10, rod 3 in the opposite direction, the sample is first completely unloaded from the compressive force, and then loading

The tensile force along the corresponding loading axis. For testing, when tensile forces are replaced by compressive forces, similar manipulations with clamps are performed.

The invention allows testing in new modes — when the sign of the axial load changes in any of the loading directions, which significantly expands the operational capabilities

installations of this type.

Claims (1)

Claims An apparatus for testing the strength of material samples, comprising a base, load carriers placed thereon, each made in the form of a two-piston hydraulic cylinder with one common rod, specimen grips associated with a corresponding hydraulic cylinder stem, and a source of medium which has in order to expanding operational capabilities by providing alternating load tests, it is equipped with a set of retainers for each piston relative to the hydraulic cylinder body and stem, and 0 the medium source is connected to the cylinder cavity between the pistons.