SU890134A1 - Plant for material dynamic tension testing - Google Patents

Description

one

The invention relates to a test apparatus, in particular to a set for testing materials for dynamic stretching.

A device for testing dynamic tensile materials is known, which contains a tensile machine to create a pre-static load and an additional device for dynamic stretching, which is based on the sudden release of the pre-compressed spring Tl.

The disadvantage of this setup is the complexity of its design.

Closest to the invention by technical essence is a device for testing materials for dynamic stretching, containing a static tensile machine with a movable head plate placed between the stationary engraving and the base, and a parallel grip for fastening the test specimen The sample under test is an auxiliary element that is destroyed at a given static load and is connected at one end to a movable cross-bar and the other base 2}.

The disadvantages of this installation include the fact that the auxiliary element is installed with an eccentricity to the loading axis of the machine, in

 As a result, a bending moment is created on the sample to be tested at the beginning of the dynamic load and transverse oscillations occur, which reduces the accuracy of the tests.

 The purpose of the invention is to improve the accuracy of the tests.

This goal is achieved by the fact that the auxiliary element is installed in a coaxial position.

15 and connected at its other end to the fixed traverse, and the coupling of the auxiliary member to the movable and fixed traverse is effected by means of a reverser.

20 The drawing shows schematically the proposed installation.

The installation contains a static discontinuous mass with a movable head plate 1 placed between the fixed

25 crosshead 2 and base 3, to which passive grip 4 of test sample 4 is connected, active grip of test sample 5 is associated with movable cross bar 1. Coaxially to grips 4 and 6 of test sample 5, an auxiliary element 7, destroyed zannaya one end of the movable cross member 1, and the other with a fixed cross head 2.

The auxiliary element 7 is connected with movable cross-bar 1 and fixed cross-bar 2 by means of a reverser, made in the form of brackets 8 and 9, with bracket 8. can be moved in bracket 9. Mobile cross-bar 1 moves on columns 10.

The installation works as follows.

Sample 5 and auxiliary element 7 are secured in their respective grippers. Prior to testing, the gripper 4 is moved so as to select the gap between sample 5 and gripper 4,

6.The distance. The traverse is moved 1. 3. As a result of its movement, the grip b for the sample begins to move.

5 and clamp 8. Since the gripper 4 and clamp 9 at the time of displacement of the cross bar 1 remain stationary, the sample 5 and the element are loaded

7. Traverse 1 is moved until the auxiliary element 7 is destroyed. When element 7 is momentarily destroyed, the entire load is transferred to the test sample 5 and it is dynamically loaded.

Thus, the coaxial placement of the auxiliary element 7 and the test sample 5 allows eliminating

torque bending and lateral vibrations, reducing the accuracy of the tests.

Claims (2)

1.Isakovich E.G., Golderman M.A. modern means of high-speed testing of materials. M., TSNIITEI instrumentation, 1970, p. 20-21. 2. USSR author's certificate in application number 2669722, cl. G 01 N 3 / 30-, 1978 (prototype).