SU1132189A1 - Method of determination of material brittleness critical temperature - Google Patents

Abstract

A METHOD FOR DETERMINING THE CRITICAL TEMPERATURE OF THE BRITTLE MATERIAL, which consists in that the material samples load at different temperatures in a given temperature range, register the material deformation parameter under load at different temperatures and determine the critical temperature of the material brittleness, characterized in that, in order to reduce the workability, in order to reduce the workability, in order to reduce the workability, it is necessary to reduce the critical temperature of brittleness of the material, characterized in that, in order to reduce the workability. metal consumption tests by using small-sized samples, the load is chosen from the condition of 0.1 b (T) b 6 g (Tj), where 6 is the voltage in the sample; & t (T |), 6 (Tj) are the yield strengths of the material at the lower and upper temperatures of a given interval; as the deformation parameter, choose the speed of the macroplastic deformation of the sample, which is reached after the same time for all samples The dependence of the rate of micropastic deformation on temperature is established, and the critical temperature of brittleness is determined as the temperature corresponding to the highest value of the rate of microplastic deformation.

Description

WITH

Yu

00 WITH

The invention relates to the study of the strength properties of materials, in particular, to methods for determining the critical temperature of brittleness.

The known method for determining the critical temperature of embrittlement of a material is that the material samples are loaded at different temperatures in a predetermined temperature range, the material deformation parameter is recorded under load at different temperatures, and the critical embrittlement temperature of the material is determined. As the deformation parameter, the deformation of the product of the material is chosen when the specimen is destroyed, and the critical temperature of the material brittleness is determined by testing special large-sized specimens for impact strength ClJ.

The disadvantage of this method is its laboriousness and meta-intensity.

The purpose of the invention is to reduce the labor intensity and metal intensity of the tests by using small-sized samples.

This goal is achieved by the fact that, according to the method of determining

the critical rate of brittleness of the material, consisting in the fact that material samples are loaded at different temperatures in a given temperature range, the parameter of material deformation under load at different temperatures is recorded and the critical temperature of brittleness of the material is determined, the load is chosen from condition 0,, J4 b - where 6 is the voltage in the sample; 6 ;-( T), bt (2) the yield strengths of the material at the lower and upper temperatures of a given interval, choose the speed of microplastic deformation of the sample, which is achieved through

the same time for all the samples from the moment of application of the load, the dependence of the rate of microplastic deformation on temperature is established, and the critical temperature of the ring is determined as the temperature corresponding to the highest value of the rate of microplastic deformation.

This allows us to reveal the extremum of the dependence of the speed of microplastic

This deformation lies in the range of a viscous-brittle transition in the state of the material.

The method is carried out as follows.

Compact material samples are used, designed, for example, to be loaded with compression. The tests are carried out at different temperatures at a given temperature.

interval T Those: T., where T,

T, -1

respectively, the lower and upper temperatures of a given interval, which are selected from the practical

experience of testing materials similar to the studied. The load during testing of the samples is chosen from the condition of providing stress 6 in the material that satisfies the condition alad) (T, dBr (,) ,,} respectively, the yield strength of the material at lower temperature T and upper temperature Tj of a given interval. the rate of microplastic deformation of the sample, which is reached after the same time for all samples as time t from the moment of application of the load. Measurement of inhomogeneous microstastic deformation due to the concentration of microinhomogeneities of the structure of a polycrystalline material, carried out by a laser interferometer for precision measurement of the creep rate. According to the measurement results, the dependence of the velocity V of micropastic deformation on temperature T is established. inhibits the development of brittle destruction.

Example. The tests were carried out on steel samples 08HGDNTL, YuHGDNTPhP, 20GTL and 38KhSB after different heat treatment conditions. Cylindrical samples with a diameter of 2 mm and a height of 6 mm were used. The loading is carried out at a temperature of -60 ° C with an interval. After the load is applied, the measurement of the rate of microplastic deformation is carried out after 5 s. Accuracy of measurement by laser interfe3 11321894

with precision meter for critical brittleness temperature

neither the creep rate of the material by considering the state

1% based on linear displacement of material structure and ability

0.2–0.3 µm. Of material with microplastic deformities The proposed invention allows -5 matches to block the development of brittleness to reduce labor intensity and metaplose fracture when tested short-term test for determining barite samples.

Claims (1)

THE METHOD FOR DETERMINING THE CRITICAL TEMPERATURE OF MATERIAL FRAGITY, which consists in the fact that the samples of the material are loaded at different temperatures in a given temperature range, the parameter of deformation of the material under load at different temperatures is recorded and the critical temperature of brittleness of the material is determined, characterized in that, in order to reduce the complexity and intensity of the tests — using small-sized samples, the load is selected from the condition 0.1 έ _τ (Τ _ή ) έ B <bt (Tfc), where b is the voltage in the sample; 6 _t (T |), & _t (T ₂ ) are the yield strengths of the material at the lower and upper temperatures of a given interval, the rate of macroplastic deformation of the sample, which is reached after the same period of time from the moment the load is applied for all samples, is selected as the deformation parameter, set the dependence of the microspastic deformation rate on the temperature, and the critical brittleness temperature is defined as the temperature corresponding to the highest value of the micro- and plastic deformation rate. 11321 1 1132189