SU1230389A1 - Installation for strength test of structure - Google Patents

Abstract

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Description

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Isoreten51e refers to an experimental technique for studying other structures, in particular, to installations for testing structures for static strength and fatigue.

The purpose of the invention is to improve the performance by eliminating temperature distortions of the chambers,

Figure 1 shows the scheme of the proposed installation; Fig. 2 shows the same with the test object in the stress state; on fig.Z - section aa of figure 1. .

The apparatus comprises a rigid base consisting of a fixed 1 and a movable 2 parts. On the movable part 2 of the base there are flexible chambers 3, made open from the side of a rigid base and having flanges for hermetic fastening on the movable part, axed. The chambers 3 are made of elastic material, for example rubber. Each of the chambers is provided with an outer flexible hermetic casing-4, made, for example, of rubberized fabric with a thickness of 0.1 mm thick, freely attached to chamber 3 so that there is always a cavity between the shell 4 and chamber 3. The shell 4 is closed by a layer of heat insulation 5. In the center of the chamber 3 there is a movable rod 6, fastened with it and with a shell 4 mounted for movement along a guide 7 mounted on a rigid base in the zone closed by chamber 3. The support plate 8 is pivotally connected with the rod 6 (with the possibility of rotation, at an angle of 15-20), contact with the surface of the test object 9. Each and chambers 3 by pipe 10 of the compressor with a source P of pressure, providing a change in their volume. The annular space between the chamber 3 and the shell 4 is reported by pipelines 2 and 3 with the source 14 of the forced supply of the coolant (coolant).

In the particular case, the source 1 pressure and the source 14 of the forced supply of the coolant (coolant) can be combined.

The installation works as follows.

Before starting work by moving the movable part 2 of the base relative to the fixed 1 and feeding the initial pressure 5 into the chambers 3, the latter are set so that the rods 6 are fully recessed inside the chambers 3, i.e. to support the plate 8, contacting one support surface with the surface of the test object 9, and the other with the surface of the shell 4.

When the working pressure is supplied, air from source II through conduit 10, entering chamber 3, changes its volume. As a result, the chamber 3, striving to take its original shape, moves along the 7th direction the rod 6, which, through the base plate 8, transfers the load to the surface of the test object 9. Thus, the loading cycle of the test object is performed.

When the supply of pressure stops and the cavity of the chambers 3 with the atmosphere communicates, the air is blown out of the chambers and under the action of internal / elastic forces the test object 9 returns to its original position, moving to the initial position through the plates B of the rods 6 and deforming the walls of the chambers 3. If the test object is loaded under conditions of low / or elevated temperatures, which is often necessary when examining the characteristics of the endurance of structures under conditions close to real, into the space between chamber 3 and shell 4 from source 14 through pipelines 12 and 13. supply coolant (cladagent), ensuring its circulation, wherein pipeline 12 is the inlet pipe and pipe 13 is the outlet pipe.