SU1027577A1 - Specimen of shear-testing of welded cross-shaped joint device for material specimen shear-testing under dynamic loads - Google Patents

Abstract

1. DEVICE FOR TESTING MATERIAL SAMPLES FOR CUT WITH DYNAMIC LOADS; Accuracy of testing, on the inner surface of the case opposite the respective plates, there are protrusions; 2, The device according to claim 1, which is based on the fact that ins are used as information of the information (ukionic center, force - piezoelectric, as pierHCTp - torus - two-co-ordinated multipath oscillograph with amplifiers -coordinate & mi, electrically connected with the corresponding centers. 3. The device according to claim I, is complete and amp & (L with the fact that it is equipped with a slider, rigidly connected with external and extreme internal plates and installed in the direction of the 5: made in the housing ..

Description

The invention relates to a testing technique and can be used in determining the cynic characteristic of a material for shear.

A device for testing specimens of materials for shear under dynamic loads is known, which contains a cortus to accommodate a sample of a material, a plate with a loading device, sensors and a C 1 3 recorder.

A disadvantage of the known device is the impossibility of obtaining in one experiment a family of characteristics of a material when tested on a medium at various load rates.

Closest to the present invention is a device for testing samples of materials for shear under dynamic loads, comprising a housing, parallel plates installed therein, intended for placing test specimens between them, Hai controlling device mounted on an outer plate, sensors and a regstrator, and sensors installed in samples and made in vice. optical plates of contrasting plates, and the recorder - in the form of a camera 2 J.

The disadvantage of this device is its low accuracy, since using it it is impossible to obtain information about the rate of application of the load and the distribution of effort across the samples.

The purpose of the invention is to increase the accuracy of the test.

This goal is achieved by the fact that in the device for testing samples of materials for shear under Dynamic; loads, containing the case, parallel plates installed in it, intended for the installation of test samples between them, a loading device installed on the outer plate, sensors and a recorder, on the inner surface of the case opposite to the corresponding protrusions, projections, defamation sensors are installed on the ends of the projections, and amplifier sensors are placed in the plates.

In addition, induction sensors were used as sensors of the sensor, and piezoelectric sensors as sensors were used as sensors, as well as a two-coordinate multipath oscilloscope with amplifiers that are matched electrically connected with the corresponding sensors.

In this case, the device is equipped with a slider rigidly connected with the external and

extreme inner plates and mounted in rails made in the housing.

The drawing shows a diagram of the proposed device.

The device includes a housing 1c,

protrusions 2-5 and guides 6, a slider 7, placed in guides 6, an outer rail 8, rigidly connected with

P is a slider 7, inner plates 9 and 10 parallel to it, 1 a straight inner plate 11, also rigidly connected to the slider 7, all the plates 811 being placed opposite the corresponding

5 protrusions 2.

The device also contains a loading device 12, mounted on the outer plate 8, induction sensors 13-15 deformation, located on the ends of the projections 2-5, and piezoelectric sensors 16-18 efforts placed in ppitak 8-10, and the recorder. The recorder is made in the form of a bicofinid multipath oscillograph 19, the horizontal deflection plates 20 and 21 of each channel through which the matcher 22 is amplified electrically connected with the corresponding deformation sensors 1315, and on the vertical plates 23 and 24 usppevtev-matching 25 and 25 16-18 effort.

The device works as follows. .

5 Samples 26-28 are installed in such a way that one part of each OF samples 26-28 is positioned between the projections 2-5 of the bracket 1, and the second part between the plates 8-11, then

The Q loading device 12 is connected to the outer plate 8, the slider 7 and the outermost plate 11. Under the action of the load, the outer plate 8 cuts off of the Phase 26. 26. The law of change

The 5 defs image of sample 26 captures 13, and the sensor is fixed to sensor 16. Cvn signals from sensors 13 and 16 are transmitted through amplifier 22 and 25 to plates 2O and 21, 23 and 24, deflecting one of the oscilloscope beams 19, and the law The cut (dependence of the force on the density) of sample 26 is dependent on curve 29 on the oscilloscope screen.

Sample 26 of the material transmits the force to the ofaz 27 through the plate 9 and to the sample 28 through the plate 10. As part of the energy imparted to the outer plate 8 will be expended on the deformation of the of the 26,

Claims (3)

1. DEVICE FOR TESTING SAMPLES OF MATERIALS AT A SLICE AT DYNAMIC LOADS, containing a case, parallel plates installed in it, designed to install test samples between them, a loading device mounted on an external plate, sensors and a recorder, which, with a chain for increasing the accuracy of testing, The protrusions are made on the inner surface of the housing opposite the respective plates, the strain gauges are installed on the ends of the protrusions, and the force sensors are placed in the plates. 2. The device according to π. 1, and the fact is that induction sensors are used as deformation sensors, piezo-sensors are used as force sensors, and a two-axis multi-beam oscilloscope with matching amplifiers electrically connected to the corresponding sensors is used as a recorder. g 3. The device according to π. 1, with the fact that it is equipped with a slider rigidly connected to the outer · and extreme inner plates and installed in the guides; made in the case. SUn,, 1027577