SU1397771A1 - Bed for impact tests - Google Patents

Abstract

This invention relates to a testing technique. The purpose of the invention is to expand the operational capabilities by adjusting the parameters of the shock pulse in a wider range. The stand contains a cylinder 2, installed in it and used to mount the test article pore-3, in which cavity 5 is made, communicating with the cavity of cylinder 2. The bottom of cylinder 2 and cavity 5 of piston 3 is filled with second-order surfaces, in the foci of which are placed the interelectrode spaces of the pairs of electrodes 4, 6 connected to the source 7 of the pulse current. A pair of electrodes 6, installed in the cavity 5, is connected to the source 7 through the block 8 delay. The stand is equipped with a device for creating an electric field in a liquid, and electrorheological fluid is used as the liquid filling cylinder 2 and cavity 5 of piston 3. The adjustment of the parameters of a shock pulse in a wide range is provided by a change in the viscosity of the fluid and a temporal shift between the bits. 1 hp ff, 1 ill. g l

Description

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The invention relates to a testing technique, in particular to an electro-hydraulic shock 1: tende, and can be used to test products for the impact of shock loads of large intensities.

The purpose of the invention is to expand the operational capabilities by adjusting the parameters of the shock pulse in a wider range.

The drawing shows the structural scheme of the stand.

The stand contains a base 1 on which a cylinder 2 with a piston 3 mounted in it is fixed to fasten the test product (not shown). The cylinder 2 is made in the form of a second-order surface (for example, ellipsoid, parabolic), in which the focus is placed between the electrode the space of a pair of electrodes 4. In the piston 3 there is a cavity 5 with a bottom in the form of a second-order surface, at the focus of which the interelectrode space of an additional pair is placed. electrodes 6. The electrodes 4 and 6 are connected to the source 7 of the pulsed current and the electrodes 6 are connected through the block 8 of the delay. The cavity 5 of the piston 3 communicates with the cavity of the cylinder 2 by a channel 9, and for adjusting the level of the liquid in the cylinder 2 is made on the slots 10. The stand is equipped with a device for creating an electric field in the liquid consisting of a former 1 installed inside the cylinder 2 and current leads 12 connected to the driver P and passing through insulators 13 fixed in the wall of the cylinder 2, and the electrorheological fluid filling the cavity of the piston and piston is used as the fluid. The current leads 12 are connected to a voltage source (not shown).

The stand works as follows.

When current is supplied from the pulsed source 7, the discharge between the electrodes 4 occurs first, which causes a shock wave directed at the focus of the bottom surface, which pushes the piston 3 with the test object upward, into the fluid. After a time interval specified by the delay unit 8, a discharge occurs, and between the electrodes 6, causing a counter-impact shock wave of lesser intensity. Resultant shock wave

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No impact on the test product. The delay time is selected in proportion to the specified duration of the shock pulse by pre-calibrating the stand. Impact amplitude adjustment is carried out both by varying the voltage of source 7 and adjusting the viscosity of the electrorheological fluid filling the cavities of cylinder 2 and piston 3. The adjustment is carried out by the field former 11 when the electrical voltage applied through the current inputs 12 changes.

Completing the bottom of the cylinder 2 and the bottom of the cavity 5 of the piston 3 in the form of second-order surfaces with the pairs of electrodes 4 and 6 in their interelectrode spaces, the introduction of a discharge delay unit, the use of electrorheological fluid to fill the cavities of the cylinder and the piston, and The creation of an electric field in a liquid manages to expand the operational capabilities of the stand by adjusting the parameters of the shock pulse in a wider range.

Claims (2)

Invention Formula I. The shock test bench, containing a cylinder filled with liquid, mounted in a cylinder and used to mount a test product, a piston in which a cavity is made, communicated with a cylinder cavity, a pair of electrodes placed in a cavity of a cylinder, connected to a source of pulsed current, about one l so that, in order to expand operational capabilities by adjusting the parameters of the shock pulse in a wider range, it is provided with an additional pair of electrodes located in the cavity of the piston, a delay unit through which an additional pair of electrodes is connected to a source of pulsed current, and a device for creating an electric field in the liquid, and using liquid electrorheological fluid as the liquid filling the cylinder and the piston cavity. I 2. The stand according to claim 1, the difference is - u and with the fact that the bottom of the cylinder and 1397771 the cavity of the piston is made in the form of the ea which are placed interelectrode second order surfaces, in the focus of the space of pairs by the electrode.