SU1196687A1 - Method of determining deformation of cylindrical shells - Google Patents

Abstract

METHOD FOR DETERMINING THE DEFORMATIONS OF THE CHRISTENDRIC SHELLS consisting of a cage. In this way, the casing is illuminated from one end by a parallel beam of ring section from a point source and at the other end of the casing, the luminous flux passed through the confining diaphragm of the combining casing, which is connected to the control panel, and the collecting volume of the rectangular casing has been detected by the collector, which is connected to the control panel. , Once again, the magnitude of the luminous flux is recorded and, by changing the magnitude of the luminous flux during the deformation process, the deformation of the shell is determined, so that, in order to improve the accuracy of determination at high deformation rates, the internal cavity the shells are sealed and evacuated to the pressure inside the shell at which length. § the free path of gas molecules exceeds the maximum expected value (L of the radial displacement of the shell during deformation.

Description

The invention relates to the investigation of deformations in structures by optical methods.

The purpose of the invention is to improve the accuracy of determining the deformations at high shear deformation rates. . .

The drawing shows a diagram of the device that implements the proposed method.

The device contains the internal cavity of the shell 1, rubber pads 2-5, optical transparent plates 6-8, point source 9 of light, collimator 10, annular diaphragm 11, collecting lens 12, circular aperture 13, ocular p 14, photomultiplier 15, inductor 16 , sleeve 17 ..

The invention is as follows.

The internal cavity of the cylindrical shell 1 with the help of rubber gaskets 2-5 and optically transparent plates 6-8, one of which (7) has an opening, is sealed and evacuated to a pressure inside the shell 1, at which the free path of gas molecules exceeds maximum value

radial movement of the shell 1 during deformation. It is practically enough to create a pressure of about 10 mmHg. The internal cavity of the cylindrical shell 1 is illuminated from one end by a parallel light beam of an annular section obtained by transmitting light from a point source 9 through the collimator 10 and the annular restricting diaphragm 11, and the value of the light flux at the other end of the shell 1 passing through the collecting lens 12 is recorded, a circular diaphragm 13 installed in the focal cavity of the lens 12, an eye of the eye 14 on the photomultiplier 15. Deform the shell 1 using an inductor 16 with a sleeve 17, and by changing the magnitude of the light flux in the pr cession deformation that causes current Changing the photomultiplier 15, is determined by the deformation of the shell 1.

The present invention makes it possible to eliminate the influence on the measurement results of refractive distortions at high speeds of movement of the shell wall to significantly improve the measurement accuracy and reliability of the results obtained.

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Claims (1)

. A METHOD FOR DETERMINING THE DEFORMATIONS OF CYLINDRICAL SHELLS, which consists in illuminating the inner cavity of the shell from one end with a parallel beam of light of a circular section from a point source and registering the light flux passing through the limiting diaphragm installed in the focal cavity of the collecting lens at the other end of the shell, the shell, again record the magnitude of the light flux and by changing the magnitude of the light flux during deformation, determine the deformation of the shell , And featuring a d I that, in order to increase the accuracy of determination at high strain rates, the inner cavity of the shell is sealed and evacuated to a pressure value inside the shell, wherein the length. the mean free path of gas molecules exceeds the maximum expected radial displacement of the shell during deformation.