SU1267208A1 - Device for performing impact testing - Google Patents

Abstract

1. DEVICE FOR IMPACT TESTS, containing a shock driver, two coaxially mounted measuring rods to secure the test specimen between them and a waveguide rigidly connected to the end of one dimensional L / yyyyy ////// A 7L Rod from the side opposite to the shock agent , characterized in that, for the purpose of testing when alternating deformation of the sample, the waveguide is acoustically connected to the butt end of another measuring rod from the side of the shock driver and is made of a material whose sound speed is equal to the speed sound in the material of the measuring rods. 2. The device according to paragraphs. 1, this is due to the fact that the density of the waveguide material is greater than the density of the material of the measuring rods. 3. The device according to paragraphs. 1 and 2, that is, the waveguide is that the waveguide is (L complete in the form of a rod. 4. The device according to claims 1 and 2, which is made in the form of several parallel rods. 2). ) 4 IS9 О 00 Г V. у / X / / гх Н-42 4 J jpf / г. 7

Description

This invention relates to mechanical testing of materials, namely, percussion testing devices for materials.

. The aim of the invention is to carry out tests with alternating deformation of the sample.

Figures 1-11 show various variants of the proposed shock test device.

Fig. 1 shows a variant of the arrangement of a cylindrical sample with rod-shaped measuring rods and a hollow waveguide; figure 2 - section aa in figure 1; Fig. 3 shows a variant of the arrangement of an annular sample with a rod waveguide and hollow dimensional stems; figure 4 - section bB in fig.Z; Fig. 3 shows a variant of the arrangement of a cylindrical sample with rod measuring rods and a waveguide; figure 6 - section bb In fig.Z; in fig. 7 shows a variant of a cylindrical sample device with rod measuring rods and a waveguide in the form of several parallel rods; Fig. 8 shows a section G-D in Fig. 7 (for making a waveguide of two parallel rods); Figure 9 is the same for making a wave guide of four parallel rods; FIG. 10 shows a variant of the device of an annular sample with hollow measuring rods and a waveguide in the form of two parallel rods, of which a hollow is; figure 11 - section dD in figure 10.

The shock test device contains a shock driver, in particular drummer 1, two coaxially mounted measuring rods 2 and 3 for securing test sample 4 between them and a waveguide rigidly connected to the end of one measuring rod 3 opposite the impactor 1 and acoustically with the end of another dimensional rod 2 from the side of the drummer 1.

A variant of the device shown in Figures 1 and 2 comprises a drummer 1, two coaxially mounted measuring rods 2 and 3 for securing a cylindrical sample 4 between them and a waveguide made in the form of a hollow rod 3 and rigidly connected to the end of one measuring rod 3. from the side opposite to the drummer 1, and acoustically with the end of another measuring rod 2 from the side of the drummer 1.

A variant of the device shown in fig.Z and 4, contains a drummer 1,

the bottom of coaxially mounted hollow measuring rods 2 and 3 for :: fastening between them an annular sample of sample 4 and a waveguide made in the form of a rod 6 and rigidly connected with the end of one measuring rod 3 on the side opposite to the impactor 1, and acoustically with the end of another measuring rod 2 from the side of the drummer 1.

Variants of the device. Depicted in FIGS. 3-9, there are drummer 1, two coaxially mounted measuring rods 2 and 3 for fixing a cylindrical sample 4 between them and a waveguide, 5 made in the form of one rod 6 (FIGS. 3-6), a pair of parallel rods 7 ( Figures 7-8) or two pairs of parallel rods 7 and 8 (Figures 7 and 9), which are rigidly connected to the end of one 0 measuring rod 3 on the side opposite to the hammer 1, and acoustically to the end of the other measuring rod 2 on the side drummer 1.

A variant of the device shown in Figures 10 and 11 contains a drummer 1, two coaxially mounted hollow measuring rods 2 and 3 dl — securing the ring sample 4 between them and a waveguide made in the form of two parallel rods 3 and 6, one of which (3) hollow, and the other (6) solid, which is rigidly connected to the end of one dimensional rod 3 on the side opposite to the impactor I, and acoustically to the end of the other measuring rod 2 from the side of drummer 1.

The device is made according to the variant shown in figure 1-2, works as follows.

The drummer 1 is accelerated to the required speed and hit the end of the measuring rod 2 and the waveguide associated with it. As a result of the impact, the compression wave propagates in the measuring rod 2 and the waveguide, which, upon reaching the test sample 4, deforms it and propagates — further to the measuring rod 3 up to its end rigidly connected to the waveguide on the side opposite to the impactor 1. 0 when the free end of the measuring rod 3 is reached, the compression wave transforms into a stretch wave and changes the direction of movement to the opposite.

5 Simultaneously with the compression wave propagating along the measuring rods m 2 and 3 and sample 4, the same wave propagates through the waveguide, which

Claims (4)

1. DEVICE FOR SHOCK TESTS, containing a shock pathogen, two coaxially mounted measuring rods for fixing the test sample between them and a waveguide rigidly connected to the end face of one dimensional A rod from the side opposite to the shock exciter, characterized in that, for the purpose of conducting tests with alternating deformation of the sample, the waveguide is acoustically connected to the end of another measuring rod from the side of the shock exciter and is made of a material whose sound speed is equal to the speed of sound in the material of the measured rods . 2. The device according to claims 1, which entails that the density of the waveguide material is greater than the density of the material of the measuring rods. 3. The device according to paragraphs. 1 and 2, about t-9, characterized in that the waveguide is made in the form of a rod. 4. The device according to paragraphs. 1 and 2, characterized in that the waveguide is made in the form of several parallel rods. SU, „, 1267208