SU1245929A1 - Device for testing specimens for compression under hydrostatic pressure conditions - Google Patents

Abstract

The invention relates to a testing technique and can be used to determine the mechanical properties of materials when they are deformed under hydrostatic conditions. The aim of the invention is to improve the accuracy of testing by ensuring uniform deformation of samples with lubricant-filled cylindrical cavities on the working ends. The device contains a sealed container placed on the side of one of its ends, a plunger, and on the side of the opposite end, a matrix with a conical opening for pressing through it an auxiliary sample sealing the container cavity during testing. A support is mounted on the matrix covering the auxiliary sample. At the end of the support, one of the plates for compressing the sample is installed, and the other plate is fixed at the end of the plunger. The plates are provided with throttle channels connecting the cylindrical cavities of the sample with the cavity of the container and intended to provide in these cavities the required amount of excess lubricant pressure sufficient to deform the sample without barrel formation. I il. (C (L to ate; o tc; o

Description

The invention relates to a testing technique and can be used to determine the mechanical properties of materials when deformed under hydrostatic conditions.

The aim of the invention is to improve the accuracy of testing by ensuring uniform deformation of specimens with cylindrical cavities filled with grease on the working ends.

The drawing shows the proposed test apparatus.

The device contains a sealed container 1, in the cavity of which a plunger 2 is placed on the side of one of its ends, and a matrix 3 with a tapered bore sealed during testing by an auxiliary sample 4 on the side of the opposite end.

In the cavity of the container 1 there is also a support 5 with through holes 6 on the side surface mounted on the end of the matrix 3, and plates 7 and 8 for compressing test sample 9 between them, fixed one respectively on the end of the plunger 2, and the other on the end of the support five.

In plates 7 and 8, throttle channels 10 are made, connecting the cylindrical cavities 11 of sample 9 to the cavity of container 1, which are formed by collars 12 at its ends.

The device works as follows.

Auxiliary sample 4 is installed in the matrix 3 so that its end enters the conical opening of the matrix 3, for example, by preloading.

The support 5 with the plate 8 is installed in the container 1, the cavity of the container 1 is filled with lubricant serving as the medium transmitting the hydrostatic pressure to the sample during the test, and the sample 9 is mounted on the plate 8 after filling the cavity 11 with the same lubricant as the container 1. Entering t in the cavity of the container 1 plunger 2 with a plate 7 fixed on its end face and act on the plunger 2 by a force from a press (not shown).

At the initial moment, the plunger 2 moves, without touching the test sample 9, to compress the lubricant in the cavity of the container 1, the pressure of which is perceived by the auxiliary sample 4 located inside the support 5. The auxiliary sample 4 is pressed out at a certain pressure

SRI In container 1, the value of which is stabilized.

Starting from the moment the ends of the plate 7 and sample 9 touch, the lubricant pressure increases in cavity 11. The lubricant is squeezed out of the cavities 11 through the throttle channels 10 in the plates 7 and 8 at a pressure that depends on the viscosity of the lubricant, the speed of deformation and sample sizes and channels.

Varying these parameters, first of all by the value of the flow resistance of the throttle channels 10, ensures that the lubricant in the cavities 11 of sample 9 exceeds the pressure in the cavity of the container 1, which is necessary to maximize the friction of the ends of sample 9 relative to the surfaces of the plates 7 and 8. the differential pressure must not exceed the value at which the lubricant under pressure can destroy the shoulders 12 at the ends of the sample 9.

For example, at a deformation rate of 2-10 10 m / s, the viscosity of the lubricant P and the ratio of the diameter of the channels 10 to their length 1 / 14-1 / 9, the pressure drop in the cavities on the ends of the sample to the pressure in the container is 60- 100 MPa, which is enough to compress a sample of aluminum alloy AMTsM without barrel forming its cylindrical surface.

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Claims (1)

Invention Formula A device for testing specimens for compression under hydrostatic pressure conditions, containing a sealed container, a support mounted in its cavity and a plunger mounted on the side of one of the container plunger mounted on the opposite end of the container matrix with a tapered bore to extrude an auxiliary sample through it, the cavity-sealing container when tested, and the compression plate between them of the test specimen, one of which interacts with the plunger and the other with the support, distinguishes Similarly, in order to increase the test accuracy by ensuring uniformity of specimen deformation with cylindrical cavities filled with grease at the working ends, plates are made in the plates to connect the cylindrical cavities of the sample with the container cavity.