SU1283603A1 - Method of determining low-cyclic fatigue when applying axial load of specimen of welded joint - Google Patents

Abstract

This invention relates to mechanical testing of materials. The aim of the invention is to improve the accuracy of low-cycle fatigue determination of a welded joint specimen by isolating and analyzing the deformation components of the working part of the specimen. Samples from the base metal and the welded joint are loaded cyclically at different values of deformation until the moment of destruction of the sample with fixation of the place of formation of a crack. A cyclic deformation diagram is constructed for the base metal, according to which, taking into account the deformation components of the working part of the weld sample, related to the base metal and the weld metal, the low-cycle fatigue of the weld sample is judged to occur. a s sp

Description

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This invention relates to mechanical testing of materials.

The aim of the invention is to improve the accuracy of the low-cycle fatigue determination of a welded joint sample by separating out of the total deformation of the working part of the sample its components related to the base metal and the weld metal.

The method is carried out as follows.

Cyclic tests are carried out at different values of the deformation of the sample of the base metal that is part of the welded joint. The voltage range (yb) in their working areas is determined with the number of cycles equal to one half of its value (N-) at the moment of cracking or sample failure. Based on these data, a cyclic strain diagram for the base metal is plotted, representing the dependence of the magnitude of the specified stress on the strain profile. Then, samples of the welded joint are tested by measuring the lengths of the sections of the welded metal and the weld metal that were included in the working section of the tested samples. In the process of testing, as in the case of samples from the base metal, a voltage swing corresponding to the number of cycles equal to half of its value (N;) at the time of the formation of a crack or sample failure is measured, and the location of the cracks is detected. in the area of the base metal, then the magnitude of the strain for the base metal (l. (d), which is assumed to be equal to deformation of the area of the base metal in the sample of the welded joint. In the event of a crack in the area of the weld metal, the deformation of the latter () is determined from the dependence

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of the plot, the base metal and the weld metal,

 About the length of the working area, the area of the base metal and the weld metal, respectively.

In the event of the occurrence of a crack or fracture in the area of the base metal, the low-cycle fatigue curve for samples of the welded joint is plotted in coordinates. If a crack or fracture occurs in the area of the weld metal, the low-cycle fatigue curve for the welded joint samples is constructed in coordinates, w -N ;.

Claims (1)

Invention Formula thirty 35 The method for determining low-cycle fatigue under axial loading of a sample of a welded joint sample, namely, that the specimen is subjected to cyclic loading at different deformation values, determine the number of cycles before fracture, the longitudinal deformation of the specimen and the fracture site, which are used to judge fatigue life characterized in that, in order to increase the accuracy, additional samples from the base metal are subjected to cyclic loading at different values of the deformation; Cycles equal to half the cycles before the destruction of these samples determine the stress range of the welded joint samples after the number of cycles equal to half the cycles before their destruction, and fatigue durability is judged when the section of the base metal is destroyed taking into account the range of the stress of the samples from this metal, and when fractured by a weld, taking into account the range of deformation of the weld metal, determined by the formula 45 50   OHM Mui ; "Eo-Leom-E, oh oh E. where d, d6d, bb, - range of relative deformation, respectively, working m. 55 where ice -o.m f -Muj working length plot of the base metal and metal.shva respectively.