SU857814A1 - Method of metal fatique diagnostics - Google Patents

Description

The invention relates to non-destructive testing of materials and products and can be used to diagnose the fatigue of structural materials subjected to cyclic loads. The non-destructive testing method is known by measuring the voltage of the constant frequency induced by alternating current induced in a controlled product. However, this method is suitable only for ferromagnetic materials. . There is also known a method for diagnosing metal fatigue, including deformation of a sample, its irradiation with positrons, and registration of the positron annihilation spectrum at defects 2. However, the use of this method as applied to diagnosing the degree of metal fatigue during the cyclic deformation process is unknown measurements of the positron annihilation parameter (in this case, the lifetime) of the parameters characterizing the state of the metal in the process of cyclic deformation, and Menno number of cycles to failure (Np) and the magnitude of the applied voltage (G). The purpose of the invention is to improve the accuracy of determining the degree of metal bending in the process of cyclic deformation using positron annihilation. The goal is achieved by the fact that the samples are subjected to cyclic deformation before their destruction, and the degree of fatigue of the controlled part is judged by comparing the correlation spectrum measured for it by annihilation gamma quanta with the empirical dependence of this spectrum on the applied voltage and the number of cycles. The method is carried out as follows. The part is subjected to cyclic deformation with a fixed value of the voltage FROM: and is brought to destruction. With a given applied voltage G and the number of cycles to fracture (Np), the angular distribution spectrum of annealing photons (ADAP) is measured.

Claims (1)

Claim 5 A method for diagnosing metal fatigue, including deformation of samples, positron irradiation and registration of the positron annihilation spectrum in defects, characterized in that, in order to increase accuracy before irradiation, the samples are subjected to cyclic deformation until they fail, and the degree of fatigue of the controlled part is judged by comparison. _ Nia measured for her ⁵ correlation spectrum of annihilation gammakvantov with the empirical dependence of the spectrum of the applied voltage and the number of cycles.