SU1126835A1 - Method of loading shell of electroconductive material - Google Patents

Abstract

THE SHUTTLE OF LOADING THE SHELL FROM THE ELECTRICAL CONDUCTING MATERIAL by which pressure is applied to the surface of the shell due to the interaction of two magnetic fields, one of which is excited by an inductor mounted to a concentric loadable shell, characterized in that static (quasi-static) load, the second magnetic field is excited using an additional inductor, the turns of which are placed on the facing a first inductor surface location (O span of and isolated from the casing material.

Description

one

The invention relates to a testing technique, in particular, to methods for loading shells of electrr of a conductive material, and can be used in dynamic and static tests of shells.

There is a known method of loading shells of electrically conductive material, according to which pressure on the surface of an object is created by the interaction of the magnetic field of the inductor with the current induced in the material of the shell Sch.

The disadvantage of this method is the impossibility of creating a long (static) load.

The closest to the proposed technical essence is the method of loading .. a shell made of electrically conductive material, according to which pressure is applied to the surface of the shell due to

The VIA of two magnetic fields, one of which is excited by an inductor, is installed concentrically loaded shell, and the second magnetic field is excited by passing an electric current through the test. Tummy shell, cut along the generatrix and bonded to dielectrics at the site of the cut. This method allows the test shell to be loaded with both dynamic and quasistatic loads, and static 2j.

However, since the current density is uniform over the surface of the shell, the known method does not allow the creation of non-uniform static (quasistatic) loads in the shell.

Purpose izob. Eteni - extension of functionality due to the provision of various laws of the distribution of static (quasi-static) load.

The goal is achieved by the fact that according to the method of loading the shell of an electrically conductive material, according to which pressure is created

on the shell surface due to the interaction of two magnetic. fields, one of which excites

With the help of an inductor installed in a concentric-loaded shell, the second magnetic field is excited by an additional inductor, the turns of which are placed on the surface of the shell facing the first inductor and isolated from the shell material.

The pressure on the shell is created only in the areas where the turns of the additional inductor are located. Change

In these areas, various load distribution laws can be obtained.

The drawing shows the loading scheme of the proposed method.

0 The first inductor 1 is mounted concentrically with the test shell 2 of electrically conductive material fixed by means of supporting frames 3. On the surface of the shell 2

5 -in areas where it is necessary to create a force effect, through an insulating gasket (not shown) are attached in any known manner (by pressing, gluing, etc.)

0 turns of the second inductor 4, Inductor I is connected with conductors (not shown) in parallel with inductor 4 and in series with a current source (not shown). As a result of the interaction of the magnetic fields of the electric currents flowing in the inductors 1 and 4, the force is applied (dynamic and quasistatic with impulse current and static at constant 1P1) on the studied shell, moreover, the static W quasistatic and the load is localized only in the areas of the surface inductor 4,

The use of the invention makes it possible to increase the effectiveness of the study of the stability of the shells by providing various loading laws.

Claims (1)

METHOD OF LOADING A SHELL FROM AN ELECTRICALLY CONDUCTING MATERIAL, according to which pressure is applied to the surface of the shell due to the interaction of two magnetic fields, one of which is excited by an inductor mounted by a concentrically loaded shell, characterized in that, in order to expand the functionality by providing various laws distribution of static (quasistatic) load, the second magnetic field is excited using an additional inductor, the turns of which are placed on facing the first ohm inductor surface of the shell and isolated from the material of the shell. a ”, §U, a” __ 1126835>