SU1226142A1 - Installation for fatique testing of group of specimen - Google Patents

Abstract

The invention allows alternating the same and different loading of samples (O - "O) without rewiring the installation. The installation contains a washer (Ø) 2 with protrusions 3 installed in housing 1 and clamps 7 and 8 located around Ø 2. For various loads of specimens 9, each follower (T) 10 mounted at clamp 7 is attached at one end to shaft 5 installed coaxially The second end of the T 10 is in contact with the springs 12 fixed on the frame 13 of the shaft 5. When the W 2 rotates, the force of the springs 12 is transmitted to the clamps 7 and the samples 9 by means of the 4 T 10 actuator. pulsating load. For the loads of all samples 9, at the same time, the projections 3 are installed opposite the grippers 7. Turn off the drive 4 and turn on the drive 6. The shaft 5 rotates T 10 and the frame 13. Each T 10 passes through all the projections 3 and loads the samples 9 with a load, the limits of which are determined by the characteristic and pressing of the spring 12 connected to it. Samples 9 come to collapse. Analyzing alternating loading cycles of specimens 9, the influence of loading paths on the fatigue strength limits of materials is investigated. 1 il. (L N5 Yu 05 4ik Yu

Description

The invention relates to a technique for testing materials, in particular, installations for testing a group of fatigue specimens under a complex loading program.

The purpose of the invention is to expand the functionality by alternating the same and different loading modes. samples.

The drawing shows an installation diagram for fatigue testing of a group of samples.

The apparatus comprises a housing 1, a cam washer 2 installed therein with identical protrusions 3, a drive 4 for rotating the washer 2, mounted in the housing 1 coaxially with the washer 2, a shaft 5 with a drive vraseni 6, grippers 7 and 8 for samples 9 located circumferentially around the washer 2 , pushers 10 according to the number of samples 9, interacting with grippers 7 and projections 3 washers. The pushers 10 are hinged at one end by means of the axles 11 attached to the shaft 5, the second contact with the power springs 12 mounted on the frame 13 attached to the shaft 5. The pushers 10 are located at an angle corresponding to the projections 3 of the washer 2. To adjust the preload of the springs 12 on the frame 13 installed screws 14.

The installation works as follows.

The switching order of drives 4 and 6 is determined by the loading program. To carry out individual loading of each sample 9 from the group simultaneously tested, the pushers 10 with the frame 13 are set so that each pusher 10 is above the grip 7, and the drive 4 is turned on the rotation 2 of the washer 2. As the washer 2 rotates, its projections 3 raise and lower the pushers 10, passing The force of the springs 12 on the claws 7 and the samples 9. Since the shape and dimensions of the projections 3 are the same, each of the samples 9 is loaded with a repetitive pulsating load, the limits of which are determined on each sample by a characteristic and Now press its spring 12. When the specified number of loading cycles is reached, go to the tests when loading the same samples 9 under equal types of load, for which the drive 4 is turned off, the washer 2 is set as follows.

so that each of its protrusions 3 is opposite the grippers 7, and the drive 6 is turned on. The shaft 5 rotates the frame 13 and the pushers 10, each of which passes through all the projections 3 of the clamp 2 and loads all samples 9 with a load, the limits of which are determined by the characteristic and compression of the connected with him spring. In this case, the loading cycle of all samples is the same and consists of several peaks according to the number of pushers 10. In this loading mode, the samples are brought to failure, and the difference in the fatigue strength limits determines the degree of influence of individual modes on the subsequent work of the material, or after a specified number of cycles loading again goes to the individual loading according to the first program, if the pushers 10 are set to their previous position, or at other limits of load variation, if the pushers are installed opposite to d ugih samples of the test group. By alternating the same and different loading modes, the effects of loading paths on the fatigue strengths of materials are examined.

Claims (1)

Invention Formula An installation for fatigue testing of a specimen group, comprising a body, a cam thrust washer with protrusions installed therein, a cam disc rotation drive, specimen grips located around the washer, and followers according to the number of specimens interacting with the grips, which is In order to expand the functionality by alternating the same and different modes of loading the samples, it is equipped with a shaft installed in the housing coaxially with the drive shaft with a rotational drive with power springs and a frame, while the pushers are alone The m end is hinged to the shaft, the second is in contact with the power springs mounted on the frame attached to the shaft, and the protrusions on the cam washer are the same and are located at an angle according to the pushers.