SU769317A1 - Method of determining object deformation - Google Patents

Description

The invention relates to the mechanics of deformable media and can be used to determine the deformed state of bodies.

A known method for determining deformations is that an irregular raster is applied to the object to be examined, a raster is photographed before and after deformation of the object, the raster images are combined, displaced relative to each other and the deformation of the deformable object is determined moire spot 1.

The disadvantage of this method is the low accuracy of strain measurement, caused by the discreteness of the movement of raster images of one relative to another.

 Also known is the method of determining the deformations of an object, since it involves that the image of the grid, before and after the deformation of the object, is fixed to the surface of the object being studied, the nanos and the reference grid in the form of a regular raster, are combined with one another. the picture determines the deformations 2.

The disadvantage of this method is that it does not allow to determine all

components of the defrocked state, since the resulting image overlaying the Moire mesh, the picture characterizes the shear deformation (isogyre pattern). This leads to a decrease in the accuracy of strain determination.

The aim of the invention is to increase accuracy.

For this. As a reference grid

10 1 an irregular raster is used, the images of the raster are combined to obtain a moire spot ri and rotate around the center of the moire spot until the moire strip appears.

The method is carried out as follows.

A reference grid in the form of an irregular raster is applied to the object. Photograph the image of the grid before and after the deformation of the 20 object at the same scale. To enhance the moire effect, the negative of one of the grids is turned into a positive of the same scale. And the negative of one grid is combined with the positive of another. Shifting raster grids one relative to another, a moire spot is placed at the surface point under study. Turning one of the raster grids around the center of the moire spot, translates the spot into a moire strip. Then, 30 is further rotated to obtain a second moire strip. By placing the original moire stain alternately at different points on the surface, we get weaving of moire strips that are sliding lines. Slip lines have the property of preserving the length of the segment marked on it when the body is deformed. On the other hand, the distances between the points forming the raster remain constant along the moire strip. The uniformity of the properties that slip lines and moire bands possess allows us to conclude that the observed moire bands also are slip lines in a deformable body. Then, using known dependencies on the pattern of slip lines, deformations are determined.

The proposed method for the determination of deformations allows one to experimentally obtain a grid of slip lines in any deformable bodies. This grid characterizes the distribution of deformations in the body in all directions continuously and makes it possible to determine not the average, but the exact values of any deformations in all points of the body. Moreover, this does not require measuring the displacement of moire

spot, the sama, m increases the accuracy of deformation.

Claims (2)

1. Author's certificate USSR № 373522, cl. G 01 B 11/16, 1970.. 2.Durelli A., Parke V. Analysis of deformations using moire. M ,. “Peace, 1974, p. 223 (prototype).