SU1033922A1 - Multi-specimen plant for fatigue-testing - Google Patents

Description

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The invention relates to the study of the strength properties of materials, namely, to many exemplary installations for fatigue testing, and can be used, for example, to test materials such as rocks, building materials, ceramics, soils and other relatively fragile solids.

A known installation for testing fatigue samples, comprising a Tsikpinesk loading mechanism, made in the form of a two-sided hydraulic cylinder, a device for static loading of samples in the form of a worm gear pair, mounted on a rigid frame and fitted with elastic elements in the form of springs connected in series with the samples, and grippers for the tested samples G 3

The disadvantages of this installation are its low productivity, since the tests can be carried out simultaneously on only two identical samples loaded according to the same program.

Closest to the proposed. technically, there is a manifold installation for fatigue testing, containing a device for static loading of samples, a cyclic loading mechanism of samples made in the form of a rotating eccentric, specimens grips radially located around the eccentric, and one of the grips of each specimen is connected to the cyclic loading mechanism the other is with a static loading device. In this installation, the device for static loading is made as a separate spring for each sample, compressible by means of a screw and nut C 3

The inventory of a known installation consists in a large amount of testing, since a change in the static load during the loading process when changing to a different load level is performed individually for each sample.

The purpose of the invention is to reduce the labor intensity of testing by providing simultaneous changes in the static load on ace samples.

The goal is achieved by the fact that in a multifaceted fatigue test set containing a device for static loading of specimens Ov, a cyclic loading mechanism for specimens made in the form of a rotating eccentric, the specimens gripped radially around the eccentric, and one of the grips of each specimen is connected to the mechanism cyclic loading, and the other with a device for static loading, the latter made in the form of an elastic ring associated with the grip, and a press for compressing ring.

With this design of the static loading device, each pair of samples located on the same ring diameter has its own static load determined by the angular position of the diameter relative to the direction of compression of the ring by a press, and the static load of all samples is changed simultaneously when the ring shape changes. ; . - -:. The drawing is a schematic diagram of a multifaceted fatigue testing apparatus.

The apparatus comprises a device for static loading of samples 1, made s as an elastic ring 2 and a press 3 for compressing the latter. . Ring 2 is associated with one of the grips A of each sample 1. The grippers 5 are connected with the mechanism of cyclic loading of the samples, made in the form of 1) ash, ayu (tsgos eccentrum 6. Grips and 5 radially located around eccentric 6. An electric motor 7 is designed to rotate the eccentric 6.

The number of specimens and the places of their connection with ring 2 can vary.

The installation works as follows.

When the press 3 applies a load to the ring 2, the latter is deformed, acquiring an ellipsoidal shape. This leads to the creation of a static force on the test samples 1, and the load for samples located on the same diameter of ring 2 will be the same, and for samples 1 located on different diameters of ring 2, the load will be different.

; Maintaining a constant lower limit of loading by providing a constant ne run on the press 3, key mechanism 6 P4KG} ical loading, setting the eccentricity value to the upper limit of the cyclic load, and the speed of the rotation of the elec- trogate 7 load pulsation.

Having sustained a certain number of cycles in the taxes, we’ll stop loading the lower limit of the load for all models for all changes in the pressure in press 3. The change in force on press 3 increases the change in static load: load by K igioM from samples. At the end of the test, the load from ring 2 is removed, it takes its original shape, and the installation is ready. guspe (y (schn test

The technical characteristics of the installation and its dimensions are determined differently. measures and materials of the tested image of the TS6 I, the design of the grips t and 5, and a given test program.

The material for the manufacture of the ring 2 can serve as carbonaceous steel that has been hardened to the corresponding hardness in order to impart to the ring 2 the high elastic properties necessary to maintain the load on the sample at a given level as the sample itself depletes.

With appropriate design grips and 5 parts of samples I can be tested in compression (samples located close to the vertical), and part - in stretching (samples, spreading almost horizontally), which expands the technological capabilities of the installation,

8 depending on the location of sample 1 on the ring. Level 2 load on it will be different. This allows you to more fully use the time allotted for the experiment, the test wire at the same time with several levels of loads. That, given the long duration of the fatigue tests, is very important. hh x

Claims (1)

A MULTIPLE INSTALLATION SYSTEM FOR TESTING FOR FATIGUE, containing a device for static loading of samples, a mechanism for cyclic loading of samples, made in the form of a rotating eccentric, grips for samples radially arranged around the eccentric, one of the grips of each sample being connected to the cyclic loading mechanism, and the other to with a device for static loading, characterized in that, in order to reduce the complexity of the test by providing simultaneous changes in static loading dressing on all samples for the static, loading device is designed as an elastic ring, svyazannoga the capture, and a press for compressing ring. ω C 1 1033922 2