SU1649243A1 - Strain gauge - Google Patents

Abstract

The invention relates to a measuring technique, in particular, to strain gauges for measuring the deformation of solids. The purpose of the invention is to improve the accuracy and reliability and measure the deformation of individual parts of the sample. At the time of the sample destruction 11, the brackets associated with the destroyed part of it are in active grip the testing machine, continue to move along the base 1 and exit the joint with the corresponding clamps 7, the springs 8 lift the lower supports b from the destroyed part of the sample and thereby disconnect from By measuring the signal from the area where the sample was destroyed, it is also possible to judge the deformation of the destruction of the material. Thus, the moment and place of the neck formation, as well as the magnitude of the uniform component of the total deformation of the sample material, are determined during the test without stopping them.

Description

 Fy

The invention relates to a measurement technique, in particular to strain gauges for measuring the deformation of solids.

The purpose of the invention is to improve the accuracy and reliability of measuring the deformation of individual parts of the sample,

The figo shows the strain gauge, a general view;, in Fig „2 - the same, top view of the figoZ - node I in fig01; on figa section AA

The strain gauge contains a base 1 with six brackets 2 of the same design mounted on it, consisting of a housing 3, on which are placed an upper adjustable prismatic support 4 with an adjusting screw 5, a lower prismatic support b, connected to the bracket body 3 with a fixer 7о. the bracket 3 and the lower prismatic support 6 are fitted with a spring 8o. The brackets 2 are connected in pairs by elastic strain gages 9 (U-shaped in figure 1) arranged in a checkerboard pattern and with strain gages pasted on them 0. is set on the sample 7 through 11. The retainer bracket 2 by a screw 13 rigidly kre- Peats to the base 1, it is extremely bracket (curing at fig01) rigidly connected to a base, and the other brackets have a possibility to move relative thereto about

The design of the strain gauge allows the experimenter to change the base distance between the brackets 2 by nepeciasing the brackets 12 with the clamps 7 fixed on them based on 1 o

A strain gauge is mounted on sample 11 so that the extreme brackets (right and left in Figs. 1 and 2) are placed strictly along the boundaries of the controlled area of the sample. The remaining brackets and clamps 7 with brackets 12 are mounted on base 1 so that the distance between them is the same . Each of the lower prismatic supports 6 is pre-connected to the body of the bracket 3 by a clamp 7, pressing the spring 8, and then using the upper prismatic supports 4 and the adjusting screws 5, the clamp 2 shakes to sample 11 until it fixes at the base points

Q

0 5 o 5

0

five

0

five

The strain gauge works as follows.

When the sample 11 is stretched, the brackets 2 begin to move together with the base points relative to each other, thus bending the teizobalka 9 and causing the signals taken from the strain gauges 100 to change. The chess arrangement of the strainer 9 promotes their normal operation during testing about Comparing the signals from different strainers to a specific point in time, you can judge the uniformity of deformation of the sample in a controlled area between the extreme brackets0

At the time of the formation of the cervix, in any of the sections, the process of deformation on this section begins to proceed more intensively than on others. The signal taken from the strain gauge measuring the deformation of this section changes accordingly. By the total value of the signals until one of them becomes unstable It is possible to determine the magnitude of the uniform deformation of the specimen. Thus, the moment and place of necking, as well as the magnitude of the uniform component of the total deformation of the specimen material, are determined during the test. Nij without stopping,

At the time of the destruction of the sample 11, the brackets 2, associated with the destroyed part of it, which is in the active grip of the testing machine, continue to move along the base 1 and exit from the joint with the corresponding clamps 7, the springs 8 discard the lower supports 6 from the destroyed part of the sample and The tensometer is disconnected from it by the most, preventing its breakage. By the magnitude of the signal from the area where the sample was destroyed, one can also judge the deformation of the destruction of the material I

Compared with the prototype, the proposed strain gauge makes it possible to simultaneously measure the strain on each of the base areas of the controlled area, fix the moment and place of the neck formation, accurately determine the uniform deformation of the specimen from the material under study, without interrupting the test process. out of order 0

5 arr

Claims (1)

Claims I. A strain gauge comprising two brackets with two supports designed to be attached to a specimen and a strain gauge mounted perpendicular to the brackets, the ends of which are connected to the brackets, characterized in that it is equipped with a base to increase accuracy and reliability. rigidly attached to one sixteen 12 g 9243 to the bracket and movably through the spring clip to the second bracket 20 A strain gauge according to Clause 1, dl and h aa y and so that, in order to measure the deformations of individual parts of the specimen, it is equipped with additional strain gauges with brackets installed so that each next tenso-JQ beam is attached to previous slinger bracket. one fiyo.1 13 FIG. 2