SU700814A1 - Method of determining material fatigue limit - Google Patents

Description

The invention relates to the field of research of the strength properties of materials, and specifically to methods for determining fatigue life, and can be used in testing a batch of samples. The known method for determining the fatigue strength of metals, according to which the samples are subjected to cyclic loading until failure, the number of cycles to failure and the amplitude of loading are measured, the magnitude of the electron work function from the sample surface is continuously measured, and the accumulated fatigue damage in the metal 1 is measured The disadvantage of this method is that it does not make it possible to determine the durability of the samples without destroying them, but only allows to judge the kinematics of the accumulation process: fatigue x damage. The closest to the technical essence of the invention is a method for determining the fatigue life of materials, by which the sample is subjected to cyclic loading before their destruction and the number of loading cycles to destruction is judged on the fatigue life 2 The disadvantage of this method is the long duration of the test, since the fatigue life of the materials must be brought to destruction the entire batch of samples. The aim of the invention is to reduce the test duration of a batch of samples. This goal is achieved due to the fact that only a part of the samples is brought to failure, the residual deformation of them is measured during the loading process after its stabilization, and the durability curve is plotted depending on the residual strain value obtained and the number of loading cycles to failure. the remaining samples are measured for a similar residual strain, and their fatigue durability is determined by the magnitude of the latter and the constructed curve. FIG. 1 shows a durability curve, FIG. 2 is a sample testing circuit. The method is carried out as follows. A part of the samples is subjected to cyclic loading with a constant swing of vibrations and the value of the residual deformation of the samples after its stabilization is measured during the loading process, the same samples are brought to failure and the number of load cycle is determined and to failure. According to the results obtained for the same samples, the durability curve (see Fig. 1) is plotted, depending on the obtained residual strain value and the number of loading cycles before failure. The rest of the batch samples are subjected to cyclic loading with a constant swing of vibrations until their residual deformation is stabilized and their value is measured.

The fatigue life of the remaining specimens of the batch is determined by the measured residual strain values and the built curve, and their failure to break down is determined.

The method for determining the fatigue life of materials allows cpaBHeHtro with a known method to significantly reduce the test time, reduce their cost, and reduce the number of test samples to be destroyed.

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Invention Formula

The method for determining the fatigue life of materials, by which samples are subjected to cyclic loading until their destruction and

the number of loading cycles to failure is judged on fatigue life, characterized in that, in order to reduce the test duration of a batch of samples, only part of the samples will be destroyed until failure, the value of their residual deformation is measured in the process of loading t the durability curve as a function of the residual strain value obtained and the number of loading cycles before failure, while the remaining specimens measure similar residual strain and the magnitude of the latter and the constructed curve their fatigue life is determined.

Sources of information taken into account in the examination

1. Authors certificate of the USSR 255620, cl. G 01 N 3/32, 1969.

2. GOST 2860-65 Metals, methods for determining the limit of endurance (fatigue). M., .1965, (prototype)