SU1395977A2 - Arrangement for testing tubular specimens for axial compression - Google Patents

Abstract

The invention relates to a test technique and is an improvement of the device auth. St. No. 1193504. A liner consisting of a set of beams 4 is inserted into the tubular sample 1, which is installed in the grippers 2 and 3. The pushers 5, under the action of conical sleeves 7 and 8, interacting with the spring 10, press the beams 4 to the inner surface of the sample. Additional beams 14 are connected with corresponding beams 4 by means of brackets 11 with elastic washers 13. Washers 13 are necessary to compensate for the lateral deformation of the specimen during its axial compression. Beams 4 and 14 increase the critical load of the sample, which allows it to be loaded with an axial compressive force until fracture. 3 il. (Oh (L

Description

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I The invention relates to a test technique.

I The purpose of the invention is to increase the reliability of the results by eliminating buckling.

Figure 1 shows the proposed device, a General view; FIG. 2 is a section A-A in FIG. 1.; FIG. 3 is a section BB in FIG. one

The device contains means for Attaching to the sample 1 an axial force, made in the form of grips 2 3 and a liner installed inside the sample without a gap, which consists of a set of beams 4 installed circumferentially parallel to the pO axis. Pushers 5 are attached perpendicularly to the axis 00 to the inner surfaces of the beams at both their ends. The hub 6 is mounted axially to the beams with openings on the side surface in which the pushers are placed with the possibility of axial movement. Inside the sleeve 6 is coaxial to it. Two conical bushings 7 and 8 with axial movement are stopped along the rod 9, Bushings 7 and 8 are spring-loaded relative to each other by a spring 10, and their outer side surfaces having a tapering angle b of the emitting conical surface | Esi 00, - less than the treyi angle of the pushers 5 along the sleeve 6, interact with the d torches of the followers 5. Beams 4 using: Kob 11, bolts 12 and elastic washers 13 Connected to additional beams 14. To ensure the passage of brackets onto the ends of the specimen set the sleeves 15

The device works as follows.

The conical sleeves 7 and 8 bring together, compressing the spring 10, shift to the middle of the beam 4 and install the liner inside the sample 1. Under the action of the spring 10, the tapered bushes 7 and 8 move along the axis, i interacting with the pushers 5, which press the beams 4 to the inner the surface of sample 1. Then install the sleeves 15 and with the help of staples 11 and bolts 12 additional beams 14 are connected with beams 4, while between

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With additional beams 14 and brackets 11, elastic washers 13 are installed, which compensate for the increase due to the Poisson ratio of the sample thickness during its compression.

Then, the sample 1 is fixed in grippers 2 and 3 using the assembled device and is loaded with a compressive axial force from a press (not shown). .

Being in constant contact with the inner and outer surface of sample 1, beams 4 and 14 increase the critical load that can lead to loss of stability of the test sample, i.e. to the appearance of deflections and holes on its surface.

The test results showed that the forces acting on the side of the beams, 4 and 14 on the tubular sample 1, are very small compared to the compressive force from the grippers 2 and 3. They constitute less than 0.1% of the axial force and almost distort the uniaxial stress state in the working area of the sample.

Thus, when using the proposed device (as opposed to the known), the tubular specimen loses stability during loading and, therefore, provides a more accurate fit. The circuit of the stress deformed state is uniaxial compression and ultimately the greater accuracy of the test results.

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Mule Invention

Device for testing tubular specimens for axial compression according to the author. St. No. 1193504, characterized in that, in order to increase the reliability of the results by eliminating buckling, it is provided installed evenly around the circumference covering the beams, additional beams parallel to them for interacting with the outer surface of the sample and rigid brackets rigidly connected with the corresponding beams and through elastic washers - with appropriate additional beams.

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Claims (1)

Device for testing tubular specimens for axial compression according to ed. St. No. 1193504, characterized in that, in order to increase the reliability of the results by eliminating the loss of stability, it is equipped with additional beams installed uniformly around the circumference, covering the beams, parallel to them for interaction with the outer surface of the sample and rigid brackets, connected rigidly with the corresponding beams and through elastic washers - with corresponding additional beams.