SU1525545A2 - Bed for fatigue tests - Google Patents

Abstract

The invention relates to devices for fatigue testing of samples and allows extending the functionality of the test bench by providing tests of samples not only for bending, torsion, the combined effect of bending with torsion, but also for stretching - compression. The brackets 3 are hinged with additional active grippers 6, the axes of which are parallel to the axes of the respective shafts 1 or 2. Passive grippers 4 are installed with the possibility of rotation in the plane of the corresponding bracket 3. The loading of the samples 5 by cyclic stretching-compression occurs during rotation of the shaft 1 with the entire system due to the displacement of the end of the shaft 2 at the angle γ downwards or upwards. 2 Il.

Description

The invention relates to testing equipment, namely, devices for fatigue testing of specimens for bending, torsion, the combined effect of bending with torsion, stretching and compression.

The purpose of the invention is to expand the functional capabilities of the stand by providing test samples not only for bending, torsion, the combined effect of bending with torsion, but also for stretching and compression.

Fig. 1 shows a test bench when testing rod samples for stretching and compression; FIG. 2 shows a node for fastening a passive grip at the end of a universal joint cross,

The bench contains a massive bed with a rotating drive mounted on it with shaft 1, loading shaft 2 with a moving mechanism (not shown), two identical rigid brackets 3, passive grippers 4, active grippers (not shown) for testing samples 5 for bending with torsion, additional active grippers 6 for testing tensile-compression specimens 5, a carcass hinge consisting of a crosspiece 7 and two forks 8 fixed on shafts and hinged to the crosspiece, two sleeves 9 mounted on shafts with a sleek turn and commit attitudes Shaft axes. The ends of brackets 3 are made with grooves 10 for mounting and moving active grippers (not shown) for testing samples 5 for bending, torsion and joint bending with torsion. When conducting fatigue tests of specimens 5 for bending, torsion and bending with torsion, the passive grip 4 is installed so that its axis coincides with the axis of the cross and is fixed in this position with a retaining bolt 11 (Fig. 2). For the tensile-compression tests, the locking bolt I1 is turned off and the passive grip 4 around the axis 12 is turned 90 in a plane perpendicular to the plane of the cross 7 of the universal joint, in the direction of the loading bracket 3,

The stand works as follows.

When testing specimens for tension-compression (Fig. 1), the clamp 3 of the shaft 1 l

five

0

five

0

five

lives in the same plane with the fork 8 of the shaft 2, and the bracket 3 of the shaft 2 lies in the same plane with the fork 8 of the shaft 1, the locking bolt 11 is unscrewed, after which the passive gripper 4 rotates around the axis 12 by 90 ° in a plane perpendicular to the plane of the cross 7 The cardan joint, B, passive 4 and additional active gripper 6, set the 5 o pattern. In this case, the shafts 1 and 2 lie on the same straight line. After installation and securing of all samples 5, the required load is introduced by displacing the end of the shaft 2 by an angle in one direction or another (for example, down to the bed). Then, an actuator is turned on, which, through shaft 1, causes the entire system to rotate together with a universal joint, as a result of which samples 5 are subjected to a cyclic load for tension-compression according to a symmetric sinusoidal law. loading cycle, in the upper position (the rotation angle If o) sample 5 is maximally stretched. Then, while turning, the load decreases and at f 90 ° the sample is completely unloaded. Upon further rotation of the cardan, the sample is gradually loaded with a compressive load, which at its angle of rotation V 180 reaches its maximum value, at f 270 ° the sample is again fully unloaded, at f 360 it returns to its original state.

Claims (1)

4Q claims The stand for fatigue tests on the basis of the author, sv, No. 1317317, from l and h and y and with the fact that, in order to expand the functional capabilities of the stand by providing test samples not only for bending, torsion, the combined effect of bending with torsion, but also for tension-compression, it is provided with pairs of opposing active grippers hinged at the respective brackets, the axes of which are parallel to the axes of the respective shafts, and the passive grippers are installed with the possibility of rotation in the plane of the corresponding bracket. FIG. 2