SU1293541A1 - Installation for testing material specimens - Google Patents

Abstract

The invention relates to a testing technique and is intended for testing the strength of specimens of materials, in particular rocks, with uniaxial or multiaxial loading. The goal is to expand the functionality by exploring

Description

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energy exchange between the loading system and the sample with the removal of the energy of the system at various stages of loading. Hydraulic cylinders (HZ) 2 with pistons 3 and means for relieving the load are placed on the support frame 1. They are made in the form of a sleeve (B) 11 placed in the cavity of HZ 2, and so on 12 to change the position of B 11 in the cavity of HZ 2. With the pistons 3, the clamps 4 for sample 5 are connected. Sub-piston and supra piston cavities 7 and 8 through valves 9 and 10 are connected to the hydraulic system 6. The piston 3 is placed in B 11, having in the side wall

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The invention relates to testing equipment, to installations for testing the strength of samples of materials, in particular rocks, under uniaxial or multiaxial loading and for studying the energy exchange between the loading system and the sample.

The purpose of the invention is to expand the functionality by examining the energy exchange between the loading system and the sample with the removal of the energy of the system at various stages of loading.

The drawing shows an installation setup for testing material samples.

The installation comprises a support frame 1 placed on it hydraulic cylinders 2 with pistons 3 and devices for relieving the load, grips A for sample 5, connected to pistons 3, and hydraulic system 6 connected to sub-piston 7 and over piston 8 hydraulic cavities 2 through valves 9 and 10. Each of the devices for relieving the load is made in the form of a sleeve 11 placed in the cavity of the hydraulic cylinder 2., and pull rods 12 for changing the position of the sleeve in the cavity of the hydraulic cylinder 2, while the piston 3 is placed in the sleeve 11, and the sleeve has in the side wall a channel 13 for d bscheni podporshnenoy nadporsh- -nevoy 7 and 8, the cavities 13 in the channel length

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channel 13 for communicating cavity 7 and cavity 8. The length of channel 13 in the direction of the axis B 11 is less than the stroke of the piston 3, but greater than the width of its seal zone. When pressure is applied to cavity 7, piston 3 is displaced to the left relative to B 11, which causes sample 5 to deform. Fluid through channel 13 rushes into cavity 8, equalizing pressure in cavities 7 and 8. Piston 3 stops and deformation occurs due to elastic energy Sample 5. Changes in the load, a series of experiments was carried out at different sites. 1 il.

the direction of the axis of the sleeve 11 is less than the working stroke of the piston 3, but greater than the width of the sealing zone of the piston 3. Initial cavities 7.8 hydraulic cylinders 2 adjuster) positioning the hydraulic cylinders 2 relative to the support frame 1 and connected bushings 14. The number of hydraulic cylinders 2 and their location on the frame 1 is determined by the kind of stress created on the sample 5.

The installation works as follows.

The test sample 5 is preliminarily tested to determine the deformation and strength properties of the test material in the form of the stress state, which involves the study of energy exchange. For this purpose, the hydraulic cylinders 2 on the frame 1 are placed according to the scheme that provides the required stress state, and the plugs 12 are disconnected from the sleeves 11 .. The valves 9,10 are set in positions that provide pressure either in the cavity 7 to create compressive loads or in the cavity 8 to create tensile loads narrow. For the diagram shown, the horizontal axis is compressive, and the vertical axis is tensile. When pressures are applied to the hydraulic system 6, the pistons 3 move along with the sleeves 11 until the failure of sample 5 with full power transfer from the loading system to the sample 5. The volume of energy transferred is set by the starting position of the pistons 3 in the cylinders 2 by changing the position of the cylinders 2 relative to the frame 1. As a result of preliminary experience, loads and deformations are determined along the axes of sample 5, as well as the nature of material destruction at full power transfer.

When conducting a series of similar experiments at different initial positions of the pistons 3, the relationship of the nature of the damage to the energy of the system at full power transfer is established.

After performing preliminary experiments and studies with full power transfer, they proceed to the main test mode on this installation. To do this, connect the glands 12 with the sleeves 11 and place the sleeves 11 in the hydraulic cylinders 2 so that when the sample 5 reaches the ultimate strength, the piston 3 seals one of the outlets of the channel 13. The piston 3 is set to a position where the channel is completely in one of the cavities 7 or 8 of the hydraulic cylinders 2. Then the hydraulic system 6 is turned on and pressure is applied to the cavities of the hydraulic cylinders 2 in accordance with the sample loading scheme 5 When pressure is applied to the cavity 7 of the hydraulic cylinders 2 (shown in section) its piston. 3 is displaced to the left in the drawing with respect to the sleeve 11. The cavity 8 is free from liquid at this stage. the piston is accompanied by deformation of the sample 5. When the sample 5 reaches a deformation corresponding to the tensile strength, the seal of the piston 3 passes through the entrance to the channel 13 right in the drawing and the fluid from the cavity 7 rushes into the cavity 8 through channel 13. The cavities in the cavity 7.8 level out The movement of the piston 3 is stopped, energy is not supplied to the sample 5 from the side of the piston 3. And further deformation of the sample 5 is only due to the elastic energy of the material of the sample 5 itself. Similarly, on the other

VNIIPI Order 375/44

Random polygons pr-tie, Uzhgorod, st. Project, 4

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The deformation is carried out only by the elastic energy of the material of the sample 5. The magnitude of the fragmentation of fragments, their crushing is in this case without the fate of moving parts of the installation, i.e. without energy supply from the loading system. The test results are recorded and new experiments are carried out in which the load is dumped at various sites of the transverse deformation branch, with a different amount of energy of the initial acceleration of the parts of the installation before their subsequent operation. The result is a complete picture of the participation of the energy of the loading system together with the energy of the sample material and the sample material separately in the energy balance and the nature of the destruction in a given form. tense state. Then, the appearance of the stress state is changed by switching the valves 9, 10 by changing the number of pairs of hydraulic cylinders 2, and the series of experiments is repeated.

Claims (1)

Claims. An installation for testing samples of materials, comprising a support frame, hydraulic cylinders with pistons and specimen grips on it, connected to hydraulic cylinders pistons, characterized by 5 in order to expand the functionality by examining the energy exchange between the loading system and the sample with the removal of the energy of the system at various stages 0 loading, it is equipped with devices for relieving the load on the number of hydraulic cylinders, each of which is made in the form of a sleeve having a channel in the side wall and placed 5 in the cavity of the hydraulic cylinder, and the coupling connected to the sleeve and serving to change the position of the sleeve in the cavity of the hydraulic cylinder; the piston of the hydraulic cylinder is placed in the sleeve, and the channel of the sleeve is intended to communicate the piston and underport cavity of the hydraulic cylinder and has a length greater than the width of the zone piston seals but smaller 5 stroke piston. 0 Circulation 777 Subscription