SU423005A1 - INSTALLATION FOR TESTING MATERIALS AT TWO-VOLUME EXTENSION UNDER LOW TEMPERATURES - Google Patents

Description

The invention relates to the field of investigation of materials and strength, namely, the strength of materials under a biaxial expansion under conditions of low temperatures.

Lines for testing materials: for biaxial stretching under low temperature conditions, containing a cryostat, spacer, a working agent, a measure and a means of cooling the liquid of the object through liquid helium, and the exciter. The force actuator of the installation is a lever system. The cooling of the sample is carried out by pouring liquid into the test sample. The installation allows testing of cruciform samples up to -269 ° C.

The disadvantage of the known installation is that about a; and it does not allow to test for strength in conditions close to real, the elemeites of pressure vessels.

In order to test the elements of the pressure vessels in the proposed installation, the working chamber is a detachable air-tight air tube, its internal surface is designed to seal the edges of the test element of the vessel, a means for cooling liquid helium, made in the form of a liner with a s-maker installed in the inner part of the vessel element, as a powering device is used “stoichEK of compressed gels,” the working chamber is equipped with a pipeline, one of which is connected to the source of gels and other - connected to the port, in sdela.vnomu -vkladysche. This allows testing, when installed, the elements of pressure vessels up to during static and diclary aggression.

The figure shows the proposed plant for using materials for biaxial stretching under conditions of low temperatures, a section.

The installation contains a cr-iostat 1, a working chamber 2 in the form of a sealed split shch, fixed on the pipe 3, 1 insert 4 with a coil 5 on the inlet surface and the test element 6 of the pressure vessel of the external surface, pipelines 7 and 8 compressed gels, pipeline 9 of liquid nitrogen, sensors 10 of deformation, sensors 11 for measuring curvature of surface, thermocouple 12, sensor 13 for measuring the level of liquid nitrogen.

The installation works as follows.

The pressure vessel element b is fixed on the insert 4 and together with it is inserted with the aid of the front connection into the upper half of the working chamber 2. Sensors 10, 11 and 13 are connected to the pressure element under test and the upper half of the working hemisphere is connected Measures 2 are the livery of the case that prevents the cryostat from being destroyed when test item 6 is ipasipbiBe. After this, the working chamber 2 is lowered into the crust.

The cooling coagent of the tested element 6 of the vessel to -196 ° C is produced as follows: in, which into the working chamber of 2 liquid nitrogen through the pipeline 9. Cooling to lower temperatures, down to -269 ° C, 0 nouns1 This is achieved by lopuokaiem liquid gel. And by 3, Mayevik 5, which can be included in a closed system with fluidizable installation.

The loading of the element under test is compressed with 1M helium through conduit 7. Through conduit 8, compressed gel is supplied to a control gauge located outside the cryostat.

Subject: “About the e and e

Installation for testing of materials for biaxial stretching in conditions of low temperatures, containing a crustor, a working chamber in it and a means for cooling the test object with liquid gel, and an exciter that differs from By the fact that for the purpose of testing the pressure vessel elements 1, the working chamber is a detachable sealed ball, its internal surface is intended to be fixed on the edge of the test element of the vessel, the means providing cooling with liquid helium is made in form of contribution Dupna with a coil mounted in the inner part of the vessel element, the source of compressed gels was used as an energizer; the working chamber is equipped with a pipe line, one end of which is connected to the source of compressed gels, and the other is connected to the hole made in the insert.

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