RU2413196C1 - Installation for testing material samples at multi-point bend - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: installation consists of frame, of sample gripper and loading devices mounted on frame made in form of guide, of hydro-cylinder positioned in each guide and interacting with plunger of hydro-cylinder of loading device with inertia load, of arrester of pusher position on guide and of measuring device for load transfer. Also, the installation has additional loading devices similar to main loading devices and arranged opposite to the latter and bearing platforms designed to transfer loads to a sample. Opposite arranged loading devices load the sample both with equal and different forces.

EFFECT: tests at transfer of power of elastic deformation of bend, compression, joint compression and bend for both stretched and compressed layers of bent sample.

2 cl, 1 dwg

Description

The invention relates to testing equipment, to strength tests.

A known installation for testing a sample of material with multi-point bending (RF patent No. 1675736, class G01N 3/20, 1991), containing a frame mounted on the frame capture of the sample and loaders made in the form of a guide placed in each guide of the hydraulic cylinder interacting with the plunger a pusher hydraulic cylinder with an inertial load, a pusher position lock on the guide and a load movement meter.

The disadvantage of the installation is the lack of the ability to test samples when studying the return of elastic energy of bending, compression, joint compression and bending of both stretched and compressed layers of a bent sample.

A known installation for testing a sample of material with multi-point bending (RF patent No. 1793317, class G01N 3/20, 1992), containing a frame mounted on the frame capture of the sample and loaders made in the form of a guide placed in each guide of the hydraulic cylinder interacting with the plunger a pusher hydraulic cylinder with an inertial load, a pusher position lock on the guide and a load movement meter.

The disadvantage of the installation also lies in the lack of the ability to test samples when studying the return of elastic energy of bending, compression, joint compression and bending of both stretched and compressed layers of a bent sample.

A known installation for testing a sample of material with multi-point bending (RF patent No. 1837202, CL G01N 3/20, 1993), taken as a prototype. The installation comprises a frame, a sample gripper mounted on the frame, and loaders made in the form of a guide placed in each guide of the hydraulic cylinder interacting with the plunger of the pusher hydraulic cylinder with an inertial load, a position indicator of the pusher on the guide and a load movement meter.

The disadvantage of the installation also lies in the lack of the ability to test samples when studying the return of elastic energy of bending, compression, joint compression and bending of both stretched and compressed layers of a bent sample. This reduces the information content of studies of energy exchange processes during deformation and fracture.

The technical result of the invention is to increase the information content of research by conducting tests on the transfer of energy of elastic deformation of bending, compression, joint compression and bending of both stretched and compressed layers of a bent sample.

The technical result is achieved by the fact that the installation for testing a sample of material in multi-point bending, containing a frame, a gripper mounted on the frame and loaders, made in the form of a guide placed in each guide of the hydraulic cylinder, interacting with the ram of the pusher hydraulic cylinder with inertial load, the pusher position lock on rail and measuring the movement of the cargo, according to the invention it has additional loaders, made similar to the main loaders and installed opposite to them, and supporting platforms designed to transfer the load on the sample, and the opposed mounted loaders are made with the possibility of loading the sample both equal and different forces.

The technical result is also achieved by the fact that the support pads have different bearing area.

The drawing shows the installation diagram.

Installation for testing a sample of material with multi-point bending comprises a frame 1, a gripper 2 of a sample 3 mounted on a frame and loaders 4, 5 made in the form of a guide 4 placed in each guide of the hydraulic cylinder 6, interacting with the plunger 7 of the hydraulic cylinder of the pusher 8 with an inertial load 9, the latch 10 of the position of the pusher 8 on the guide 4 and the meter 11 for moving the load 9.

The installation has additional loaders 12, 13, made similarly to the main loaders 4, 5 and installed opposite them, and supporting platforms 14, designed to transfer the load from the pushers 8 to the sample 3. Opposite mounted loaders are made with the possibility of loading the sample both equal and different efforts.

Support pads 14 have different bearing areas.

The installation has a pumping station 15 for servicing hydraulic cylinders 6 loaders.

Installation works as follows.

The pump station 15 is turned on and the hydraulic cylinders 6 through the plungers 7, the pushers 8 and the supporting platforms 14 load the sample 3. If the forces on the pushers 8 of the loaders 4 and 12 are equal, then the sample is loaded only by compression between the supporting platforms of the pushers of these loaders. If the forces of the loaders 4 and 12 are different, then, in addition to compression in the above section, the sample is loaded by bending relative to the gripper 2 with a bending force equal to the difference in the forces on these loaders. A similar effect on the sample is exerted by a pair of loaders 5 and 13, loading the sample by compression between the respective supporting platforms and bending with respect to the portion of the sample served by the loaders 4 and 12. After reaching the specified stress-strain state of the sample, its ability to transfer elastic strain energy is determined for which in the specified order, the latches 10 of the corresponding pushers are turned off 8. The elastic recovery of the sample material moves the pusher and the inertial load in proportion to given by the elastic energy, the magnitude of which is fixed on the displacement sensor 11 inertial loads 9. Defined integrated indicators energy output of the accumulated energy of compression and bending from both sides of the stretched and compressed by the curved layers of sample. To determine the energy transfer by compression strains, the sample is loaded only by compression, to determine the energy transfer only from bending deformations, the sample is loaded only by bending. If the opposed supporting platforms 14 have different supporting areas, then the compressed portion of the sample has unevenly distributed compression stresses over the thickness: the stresses increase as you approach a site with a smaller supporting area.

The installation provides testing under new conditions - in the study of the yield of elastic energy of bending, compression, joint compression and bending of both stretched and compressed layers of a bent sample. This significantly expands the amount of information, especially when studying energy efficiency during the destruction of powerful plates and beams in geomechanics.

Claims (2)

1. Installation for testing a sample of material in multi-point bending, containing a frame, a gripper mounted on the frame and loaders, made in the form of a guide placed in each guide of the hydraulic cylinder, interacting with the plunger of the pusher hydraulic cylinder with an inertial load, a pusher position lock on the guide and a displacement meter cargo, characterized in that it has additional loaders, made similar to the main loaders and installed opposite them, and supporting platforms, before Assigning to transfer the load to the sample, wherein oppositely installed nagruzhateli arranged to sample loading both equal, and different efforts. 2. Installation according to claim 1, characterized in that the supporting pads have different bearing area.