SU1385011A1 - Installation for testing solids in three-dimensional stressed state - Google Patents

Abstract

The invention relates to testing equipment, in particular to testing of samples for the action of hydrostatic pressure and axial compressive force, varying according to a given law. The purpose of the invention is to improve the ease of use of the apparatus when testing tubular samples by eliminating the need to use fixed supports. In the hydrostatic chamber 1, cavity 2 is made, cavity 3 is made in the wall of chamber 1 and communicated with cavity 2. In cavity 3, the stem 4 is spring-loaded by means of an elastic element 5. At the other end of the stem 4, a disk 6 is fixed coaxially with it. The sample experiences lateral pressure and axial compressive force transmitted to the elastic element 5 due to the potential energy of the elastic element. The axial compressive force varies in proportion to the external pressure. 1 pe. with in (L

Description

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The invention relates to testing equipment, in particular to testing of samples for the action of hydrostatic pressure and axial compressive force, varying according to a given law.

The purpose of the invention is to improve the usability of the installation when testing tubular specimens by eliminating the need to use fixed supports.

The drawing shows the installation diagram.

The installation contains a hydrostatic chamber 1 with a working cavity 2 to accommodate the test specimen. Capacity 3 is made in the end wall of chamber 1, communicated with working cavity 2 and coaxial to it, mounted in cavity 3 spring-loaded element 5 to the chamber wall, disk 6, mounted at the other end of the stem 4 coaxially with it, designed to interact with the end of the tubular specimen. In chamber 1 there are holes 7 for feeding and monitoring the working medium.

The installation works as follows.

The working medium from the pressure source (not shown) is fed into the cavity 2 of the hydrostatic chamber 1, creating an overpressure acting on the side surface of the tubular sample and the disk 6 interacting with the end of the sample. This results in an axial load acting on the sample, which is transmitted through the rod 4 to

elastic element 5, perceiving part of the load.

After the sample has been loaded, the pressure source is disconnected and subsequently the pressure of the working medium in cavities 2 and 3, and consequently, the axial compressive force of the sample due to the potential energy of the elastic element 5 can vary in proportion to the external pressure.

The disk 5j perceives the axial load. At the same time, it secures the end part of the specimen and combines the fixation of the specimen on the end wall of the chamber. There is no need to use fixed supports placed outside the camera, which increases the usability of the installation and expands the possibilities of its use.

Claims (1)

Invention Formula Installation for testing solids in a three-dimensional stress state, containing a hydrostatic chamber for placing a test specimen sample along its axis, at the base of which a cavity is connected to the chamber and coaxial with it, and a spring-loaded rod installed in the chamber, one end of which is placed in cavity, characterized in that, in order to increase ease of operation when testing tubular specimens, it is provided with a disk fixed at the other end of the rod coaxially with it, designed to interact with the end of the tubular sample.