SU1388750A1 - Method of determining relative method of determining relative,temporary instability of material yield strength - Google Patents

Abstract

The invention relates to a testing technique and can be used to determine the temporal instability of the yield strength of a material in which there are relaxed inelastic internal stresses causing distortion of parts. The purpose of the invention is to accelerate testing by reducing the time interval that is achieved by replacing aging with stabilizing annealing in a mode that creates the maximum change in the natural frequency at a minimum temperature, and simplifies the testing process, which is achieved by appropriately treating the surface of the sample by operating in a mode that creates mutually compensating defects. structure, so that this mode is characterized by a minimum change in the natural frequency after processing heel, and using as a criterion time instability ratio eigenfrequencies after processing and using as a criterion time instability ratio of frequencies of natural oscillations of the sample before and after the stabilizing annealing. The simplification of the method is achieved due to the refusal to use means of force action on the sample and means of measuring its deformations. with (L

Description

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acquisition otis ". its to test equipment and can be used to determine the temporal instability of the yield strength of a material in which there are relaxing inelastic internal stresses causing distortion of parts.

The aim of the invention is to accelerate the tests by reducing the time interval and simplifying the test process, which is achieved by appropriately treating the surface of the sample by cutting in a mode that creates mutually compensating structural defects, and using as a criterion the relative change in the natural frequency of the sample Annealing. The method is carried out as follows.

Prior to testing, cylindrical samples are made of the material under study and the surface of one of them, selected as the main one, is processed in a mode that creates mutually compensating structural defects. To do this, the surface of the sample is sequentially processed by cutting in different modes and the natural oscillation frequency of the sample is measured before and after each treatment. The mode that gives the minimum change of this frequency is detected, and the main and auxiliary samples are processed in this mode. Then, oscillations are excited at the natural frequency of each of the samples, the auxiliary samples are subjected to annealing in different modes, and again they control the natural frequency. For the desired mode of stabilizing annealing take one that gives the maximum observed change in frequency.

According to the found mode, the sample is stabilized by annealing. The change in the mechanical characteristics of the sample after such annealing is unambiguously related to the relative temporal instability of the yield strength of the material. Therefore, in principle, it is possible to measure the yield strength of the sample material before annealing and after annealing and

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by changing its natural frequency before annealing and after annealing. Therefore, after stabilizing annealing of the main sample, its natural oscillation frequency is again measured and the temporary instability of the yield strength is determined as the ratio of the frequency difference before and after annealing.

Claims (1)

The method allows to speed up the testing process, since natural aging in this case is replaced by annealing at the maximum intensive mode of artificial aging that does not change the properties of the sample material. The simplification of the method is achieved by refusing to use test machines or any other means of force action on the sample and means of measuring its deformation. Invention Formula The method of determining the relative temporal instability of the yield strength of a material, which consists in determining the mechanical characteristics of the sample at the beginning and at the end of a fixed time interval and determining the relative instability of the yield strength, in order to accelerate the tests for by reducing the magnitude of the time interval and simplifying the testing process, before testing, the sample surface is treated by cutting in a mode that creates mutually compensating e- defects in the structure, for which the sample is processed at different modes, before processing and after processing at each mode, the natural oscillations of the sample are excited and the frequency of these oscillations is measured, and the desired change is taken as the minimum one, then the sample is subjected to stabilizing annealing, the mode of which is selected on auxiliary samples, in which natural oscillations are also excited, and the frequency of oscillations is measured before and after annealing, each auxiliary sample is measured by door annealing at different determination of the desired temporal time-temperature and duration of annealing. Bilnosti. However, a simpler way is another one, based on the fact that the change in the mechanical characteristics of the material is correlated with the use of the transformer; 1) The mode is taken as the one that gives the maximum change in frequency at the minimum temperature, and the relative time is determined. and for ism; ohms, the mode is taken as the one that gives the maximum frequency change at -minimal temperature, and the relative time 13887-50. 34 unstable. and flowability after stabilizing annealing to the part of the ratio of the frequency difference between the natural oscillations of the sample Own) 1x KOJic TiJiiuiii of the sample before the annealing.