SU1430766A1 - Dynamometer - Google Patents

Abstract

The invention relates to devices for determining the strength characteristics of materials and can be used in high-speed mechanical tests. The aim of the invention is to expand the scope. The goal is achieved by inserting a tube in a dynamometer attached to a rod-waveguide by its outer diameter of a certain length and cross-sectional area. A strain gauge is attached to the rod, which perceives the magnitude of the measured load on the sample mechanically fixed in the rod. The insertion of the tube makes it possible to match the wave impedances at all sections of the dynamometer and allows the load wave to pass without distortion S to the strain gauge. 1 il. (L

Description

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The invention relates to devices for determining the strength characteristics of materials and can be used in high-speed mechanical tests.

The aim of the invention is to expand the scope.

The drawing shows a dynamometer

The dynamometer contains a rod-waveguide 1, at the end of which a threaded hole is made along the axis of the rod. At the end of the rod-waveguide I, a tube 2 is fixed along the outer diameter from the side of the threaded hole to the entire length of the threaded hole. the waveguide rod 1 is fitted with a strainer 4 for registering a load wave generated by sample 3,

The dynamometer works as follows.

Sample 3 with a threaded head is fixed in rod-waveguide I. When sample 3 is deformed, the loading wave passes through the region where sample 3 connects to rod-waveguide I and tube 2 into the solid part of rod-waveguide 1, This load wave is recorded with tensor 4.

When elastic waves propagate n rods made of equal materials, the wave is reflected in the place of their connection. For the load wave to pass through the junction

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rods without reflection, it is necessary to maintain the equality of their wave resistances equal to the product of pCF, where F is the cross-sectional area; J is the density of the material; C is the speed of sound in the rod. When testing a sample from a material with jJjCj; j C (where index 1 refers to the material of the waveguide rod, and index 2 to the sample material), the condition of equality of wave resistances is violated and the load wave distorted during the deformation of the sample. To equalize the wave impedances, a tube-tube is used, in which case the gripping section is considered according to one-dimensional theory as a material having average density values. rod 1st speed of sound C:.

Claims (1)

Invention Formula A dynamometer containing a rod-waveguide with a strain gauge and a test specimen mechanically fixed in the rod, so that, in order to expand the field of application, a tube is attached to it over its outer diameter, with a length equal to the length of the mechanical fastening of 1; and in the rod and the cross-sectional area selected from the ratio (F, - F,) f, C, .r (p, L, R. PpCf. F.C, fiF.C + p, F, C) Y.-jf, С, - respectively the cross-sectional area, density and speed of sound in the rod; PJ, C - respectively, the cross-sectional area of the heading. Order 5331/41 Manufacturing, -poligr, pr-tie, g, Uzhgorod, st. Project, 4 neither, the density and speed of sound in the sample; j3Cj - respectively, the cross-sectional area, density and speed of sound in the tube. Circulation 847 Subscription