SU1116351A1 - Device for fatigue tests of materials for tension-compression - Google Patents

Abstract

INSTALLATION FOR FATIGUE TESTS OF MATERIALS FOR STRETCHING COMPRESSION, containing active and passive grips of the sample, a vibration exciter and an inertial load fixed to the active gripper and coaxial to the grips, which in order to increase the test accuracy by eliminating bending stresses in the specimen, in addition, inertial load, characterized by the fact that in order to increase the test accuracy by eliminating bending stresses in the specimen, the dragging force in the sample is different because in order to increase the test accuracy by eliminating bending stresses in the specimen, the load is inertial weight, which is different from the fact that in order to increase the test accuracy by eliminating bending stresses in the specimen, it is irregular, which in addition to bending stresses in the specimen is characterized by the fact that in order to increase the test accuracy by eliminating bending stresses in the specimen, the dragging force in the sample is different because in order to increase the test accuracy by eliminating bending stresses in the specimen, the dragging force in the specimen is different because in order to increase test accuracy by eliminating bending stresses in the specimen, the dragging force in the sample is different. a glass mounted on the oscillation exciter, at the bottom of which a passive grip is fixed, a hollow cylinder mounted coaxially on the glass on its open end, two round plates, one of which are clamped along its periphery between the cup and the hollow cylinder and rigidly connected to the active grip, the other rigidly fixed on its periphery a to the free end of the hollow cylinder, and the load is distributed between the plates and rigidly connected to the latter.

Description

1 The invention relates to a test technique, namely to installations for fatigue testing of materials under tension-compression. A known installation for fatigue testing of materials for stretching - compression, containing threaded active passive grips of a sample, the exciter, oscillating, on which a passive gripper is fixed, and an inertial load attached to the active gripper and coaxially gripping the specimen. with the excitation of his vibrations. In this case, the load has the ability to swing in the transverse direction of Cl3. The disadvantage of this setup is the low accuracy of tensile-compression tests of materials due to the presence of bending moments in the sample, the result of lateral swinging of the load. The purpose of the invention is to increase the test accuracy by eliminating bending stresses in the sample. This goal is achieved by the fact that the installation for fatigue testing of materials for tensile compression, containing active and passive grips of the specimen, the exciter of oscillations fixed on the active gripper and coaxially gripped inertia load, is equipped with a glass mounted on the exciter of oscillations, at the bottom of which is fixed passive grip, a hollow cylinder mounted coaxially with the glass on its open end, two round plates, one of which is clamped along its periphery between the glass and the hollow cylinder, and rigidly connect ene aktivyym claw, rigidly secured to each other at the periphery thereof at a free torus tse hollow cylinder, and is disposed between the goods plastinami.i for rigidly with the latter. The drawing shows a diagram of the proposed installation. The installation contains active 1 and passive 2 grippers having the same design, ensuring their alignment with sample 3 by means of conical spring-loaded pins 4, oscillation pathogen 5, for example, electrodynamic shaker, stan 6 with side windows 7, 5 oscillations installed on the exciter, and also cylinder 8, installed 1g coaxially to glass 6 at its end. Between the cup 6 and the cylinder 8, around the periphery, a circular plate 9 is rigidly clamped, which is rigidly connected with an active gripper 1. Another plate 10 is rigidly fixed along its periphery at the free end of the hollow cylinder 8 by means of a ring 11, and the weight 12 is placed between the plates 9 and 10 and hardwired with them. The installation also contains a series-connected random noise generator 13, a band-filter block 14, and a signal power amplifier 15, the output of which is connected to the exciter 5. In addition, the other inputs of the amplifier 15 are connected to a harmonic oscillator 16 and a tape recorder 17. The automatic feedback consists of a vibration sensor 18 mounted on the vibration exciter 5, the output of which is through preamplifier 19 connected to a band-pass filter unit 14. On sample 3, load cells 20 are glued, the outputs of which are connected through the preamplifier 21 and the analyzer 22 to the information reading device 23. The installation works as follows. Sample 3 for fatigue material testing through side windows 7 in glass 6 is installed in grippers 1 and 2. The exciter 5 is switched on and using successively connected oscillator 13 of a random noise, block 14 of bandpass filters and amplifier 15 of the signal power, provide the specified amplitude-frequency characteristics of its oscillations. To implement harmonic oscillations, the generator 16 is used, and for reproducing operating loads, the signals recorded previously on the tape recorder 17. The load 12, receiving alternating accelerations, loads the sample with its mass, causing tensile-compression deformations proportional to the amplitude-acTOTHbiM characteristics of the exciter 5 vibrations. The swinging of the load 12 in this case does not occur due to its rigid connection with the round plates 9 and 10. Thus, the appearance of the bending moments in the sample 3 is excluded. Informa tion about loading of sample 3 in the process of testing with

Claims (1)

INSTALLATION FOR TIRED TENSION TEST MATERIAL TESTING COMPRESSION, containing active and passive grips of the sample, vibration exciter and fixed on the active gripper and coaxial grippers inertial load, characterized in that, in order to increase the accuracy of tests by eliminating bending stresses in the sample, it is equipped with an installed on the vibration exciter with a glass, at the bottom of which a passive grip is fixed, with a hollow cylinder mounted coaxially to the glass at its open end, two round plates, one of which aschemlena at its periphery between the stacks and rated the hollow cylinder and zhestko.soedinena with active seizure, the other is rigidly fixed on the periphery of the free end of the hollow cylinder, and the cargo is located between the plates and is rigidly connected with the latter. > 1 116 351 2