SU1252704A1 - Method of determining rate of evolution of fatigue crack - Google Patents

Abstract

The invention relates to a testing technique and can be used to determine the rate of development of a fatigue crack. In order to determine the accuracy, the rate of crack development during high temperature tests load the sample until fracture, heat the fracture surface of the sample in a reducing medium, and then cool to room temperature, then reheat the fracture surface to shade below the maximum test temperature and determine the rate of crack development width obrazovav- lshhs on the fracture strips perpendicular to the direction of crack progression. 1 z.Po f-ly. g (L

Description

The invention of the OIHOCHTCH to the study of hedovapia of the strength properties of a material, namely, to methods for determining the rate of development of a fatigue crack.

The purpose of the invention is to improve the accuracy of determining the rate of degradation of cracks during high-temperature tests.

The method is carried out as follows.

The sample to determine the rate of crack growth is heated to the initial temperature and is loaded with non-stationary external influence cyclic loading according to the fatigue block loading mode or the fatigue loading at periodically changing temperature. The loading is carried out before the sample is destroyed or the sample is removed after growing the crack reaches a given length. With the growth of tradana on the surface of the fracture an oxide film is formed.

After the sample has been destroyed, it is placed in an airtight chamber, which is filled with a reducing medium. Hydrogen gas can be realized as a reducing medium.

In a hermetic chamber with a restorative medium, the fracture surface is heated. A reducing reaction occurs and the surface of the fracture is cleaned of the oxide film. Then the surface of the fracture is cooled to room temperature and the destroyed specimen is removed from the chamber with the reducing medium. After that, the fracture surface is reheated, but already in air, to shade it, the reheat temperature is chosen to lower the maximum test temperature for shading, but providing a pobury appearance at the fracture color, which creates a high contrast of the silt. At the same time, brightly colored strips of different shades, perpendicular to the direction of crack development and corresponding to different external conditions of loading the specimen under test, are revealed at the fracture.

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The crack propagation rate is determined by the width of the strips and by the known quantities of loading cycles at each loading stage.

Example. Test specimens of type CT-1 from low alloy steel. Test temperature 475 C. Loading frequency f 10 Hz, asymmetry coefficient 0.1. Loading alternate with blocks of the marker mode. After the destruction of the samples, the pattern of bands on the fracture is poorly distinguishable due to the oxide film, which creates a uniform dark background.

The heating temperature in the chamber with hydrogen gas is 600 ° C, the holding time is 30 min. “After this, there are no traces of oxide film on the surface of the fracture. Heating temperature on

air for shading the fracture surface of 300 ° C. At this point, sharply shortened stripes of various shades are revealed on the fracture.

Claims (2)

Invention Formula  .. A method for determining the rate of development of a fatigue crack, in which a sample is cyclically loaded according to the fatigue block loading mode or fatigue loading at a periodically varying temperature, after a sample is destroyed, the surface is shaded fracture by heat and determine the rate of crack development across the width of the bands formed on the fracture, perpendicular to the direction of crack development, and with the aim of improving the accuracy of determining the rate of crack development during high-temperature tests, to increase the fracture the reducing medium is then cooled to room temperature, and the heating temperature for shading is selected below the maximum test temperature: 2. The method according to claim 1, characterized in that hydrogen gas is used as a reducing medium.