SU1055962A1 - Polarization optical method of determination of stresses and deformations in article - Google Patents

Abstract

POLARIZATION-OPTICAL METHOD FOR DETERMINING STRESS AND DEFORMATION IN THE PRODUCT, concluded that the model is made of optical material from an optically sensitive material, it is loaded, the stress and strain are frozen in it, the model is cut, the model is cut into sections, the optical dimension is measured, the optical section is measured, the optical section is cut into it, the strain and deformations are cut, the model is cut into sections, the optical section is measured, the optical section is cut, the optical section is cut, the section is cut, the section is cut, the optical section is measured, the section section is cut, the section section is cut, the section section is cut, the section is measured, the section section is cut, the section is cut, the section is cut into sections, the section is measured, the section is optically optically which determine stresses and deformations, characterized in that, in order to improve the accuracy of determining stresses during elastoplastic deformations, elements of an additional model are made having shapes corresponding to In the main model, in the element corresponding to the zone of plastic deformation, the areas of plastic and elastic deformations create and freeze deformations equal in magnitude to plastic deformation, glue the elements into an additional product model, load it, determine the stresses and elastoplastic deformations, compare stresses and elastoplas-J-. "tic deformations in the additional and l main models and by the difference between them judge the accuracy of stresses.

Description

The invention relates to the stress and polarization research of polarization-optic methods on models from a frozen optically sensitive material. The known method of determining stresses and strains in a product, consisting of 1X) m, is applied to the surface of the product by a layer of optically sensitive material, the optical path difference that occurs during deformation of the product is measured in it, and stress and strain C1 is determined from it. J. However, this method does not allow (to heat, stress and defacement inside the volume of the product, since the stress and strain are measured only on the surface; the bones of the product. The closest to the invention in technical essence is partial optical The method of determining the stresses and strains in the product, which consists in making the model of the product from an optically sensitive material, loading it with a force load / freezing in the model of stress and strain, cutting the model into sections, measuring the optical the difference in stroke by which stresses and strains C 3 are determined. The method makes it possible to determine stresses and strains inside the product volume and to estimate the elastoplastic deformations very roughly if plasticity criterion is chosen during a coherence. The disadvantage of this method is the impossibility with the required accuracy to determine Hanjfflzhes with elastoplastic deformations. The purpose of the invention is to increase the accuracy of the network for the determination of stresses during elastic plastic deformations. This goal is achieved by the fact that, according to the polarization-optical method, the impregnation: stress and strain in the product, which consists in making the model of the product from an optically sensitive material, loading it, freezing the stress in it, and cutting the model into sections. they measure the optical difference of the rate by which stresses and strains are determined, make elements of an additional model, having forms, corresponding to the areas of plastic and elastic deformations in the main model, in the element those corresponding to the zone of plastic deformation, create and freeze the deformations equal in magnitude to 16 2 plastic deformation, glue the elements into an additional model of the product, load it, freeze and determine the stress of elastoplastic deformation, compare stresses and elastoplastic deformation in the additional and main model x and the difference between them is judged on the accuracy of the determination of stresses. The determination of stresses according to the proposed method is carried out as follows. The main model of the product is made of an optically sensitive material, it is loaded, stress and strain are frozen in it, the model is cut into sections, the optical difference of a hooa is measured in them, which is determined by the strain and strain - for the criterion of plasticity of the material of the product, approximately zoshi plastic and elastic deformations, then make elements dsmpol1 {ktelny model having forms, corresponding to the areas of plastic and elastic defo (% of variations in the main mode Spruces, in the element corresponding to the zone of plastic deformations, create and emorate ceformats, equal in size to the plastic chain of Rappa, glue the elements into an additional model of the product, load it, freeze and determine the stress, elastic strain and their zones, compare the stress and elastoplastic deformations in the additional and main models and by the difference between them are judged on the accuracy of stress determination. Then, if the accuracy is insufficient or less than the accuracy of the experiment, is made similarly The first second additional model, by measurements on which stress is determined, elastoplastic deformations and their zones, compare stresses and elastoplastic deformations in the second and first additional models and the difference in stresses between them is determined. if exact (x: insufficient or less than experimental accuracy, manufactured; similarly, the first and second third additional models and further similarly to the above, additional models are made to obtain the required accuracy in determining stresses under elastic-plastic deformations.

31055962 .4.

The use of pre-abused way of forming api k in constructions

provides compared to the known. any complex shape, which is especially possible to determine with the required importance in modern machine voltage stress at an elastoplastic structure.

Claims (1)

POLARIZATION-OPTICAL METHOD FOR DETERMINING STRESSES AND DEFORMATIONS IN THE PRODUCT, which consists in making the model of the product from optically sensitive material, loading it, “freezing” stresses and strains in it, cutting it, cutting the model into sections, measuring the optical the difference in stroke, which determine the stress and strain, characterized in that, with In order to increase the accuracy of determining stresses in elastoplastic deformations, elements of an additional model are manufactured, having shapes corresponding to the regions of plastic and elastic deformations in the main model, in the element corresponding to ¹ eon of plastic deformations, they create and 'freeze * deformations equal in magnitude to plastic deformation, glue the elements into an additional model of the product, load it, 'freeze' * and determine the stresses and elastoplastic deformations, compare stresses and gop Las Vegas; deformations in the additional and V · basic models and in the difference between -. they talk about the accuracy of determining stresses. > 1 1055962