SU1647350A1 - Method for determining mechanical properties of steel and alloys - Google Patents

Abstract

The invention relates to methods for determining the mechanical properties of steel and alloys during impact bending tests. The aim of the invention is to increase the information content by determining separately the mechanical properties of the material of the axial segregation zone and the base material in the study of continuously cast steel or alloys. To do this, in the way in which the V-notched specimens are loaded with impact bending, the parameters characterizing the properties studied are measured, and the fractions of the structural components on the sample fracture surface are determined, the dependencies between the individual parameters characterizing the properties studied are determined the structural component in the fracture of the sample and, extrapolating these dependencies, find the parameters characterizing the studied mechanical properties of the material of the axial segregation zone and the main mother la. 1 il. J

Description

The invention relates to the study of the mechanical properties of materials, in particular, to the determination of parameters characterizing mechanical properties during impact bending tests.

The aim of the invention is to increase the information content by determining separately the mechanical properties of the material of the axial segregation zone and the base material in the study of continuously cast steel and alloys.

The drawing shows the graphical dependence of toughness on the fraction of the structural component in the fracture, which explains the implementation of the method.

The method is carried out as follows.

The V-notched specimen is loaded with impact bending until failure and the parameters characterizing the mechanical properties under investigation are measured. In the study of parts of the sample, the fractions of the material of the axial segregation zone and the base material on the sample destruction surface are determined. Due to the fact that the axial segregation zone of continuous cast steel or alloys is about 100 microns thick,

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the crack in the tested sample, spreading along the zone of axial segregation, will pass partially through it and partially through the base material.

Thus, testing a large series of samples allows, due to the statistical scatter, to obtain different ratios of the fraction of the axial segregation material and the base material in the fracture of the sample. After that, a relationship is established between the individual parameters characterizing the properties under study and the fraction of the individual structural component in the fracture of the sample. Extrapolating these dependencies, find the parameters characterizing the mechanical properties of the material of the axial segregation zone and the base material.

Example. Investigated the mechanical properties of steel sheet 09G2S thickness 55-120 mm. The axial segregation zone was about 100 microns thick. Standard specimens for testing for impact bending were cut out in the direction of the thickness of the rolled product so that the axial segregation zone, detected by preliminary etching, was located in the center of the sample. The notch was applied along the line. The specimens were subjected to impact bending on a tiger rake. On the copra scale, the complete failure performance of the specimen, on which the impact strength was found, was recorded.

The fraction of the area of destruction passing through the axial segregation zone was determined using optical fractography as follows: a photograph was taken of the sample's surface, a millimeter grid was superimposed on the photograph, and the area of destruction passing through the axial segregation zone was determined.

According to the results obtained, a graphical dependence of toughness (KCV) on the fraction of material of the axial segregation zone in the fracture of the specimen (B) was plotted. Extrapoliru

the dependence before intersection with the axis of ordinates, determined the value of the impact strength of the metal in the zone of axial segregation and in the matrix of the base material. KCV of the main material is 620 KJ / m2, KCV of the axial segregation zone is 40 KJ / m2.

Claims (1)

In a similar way, during the tests, it is possible to measure any other parameters characterizing the strength or plastic properties of the material and using the proposed method to determine the values of these parameters for individual structural components. The invention The method for determining the mechanical properties of steel and alloys, according to which samples with a V-shaped notch are loaded by impact bending, parameters characterizing the studied properties are measured, and fractions of various structural components on the sample's fracture surface are found, characterized in that by determining separately the mechanical properties of the material of the axial segregation zone and the base material in the study of continuously cast steel and alloys, establish the relationship between the individual parameters characterizing the studied -keeping, and the proportion of the structural component under investigation in the fracture of the sample and extrapolating the dependence finds m parameters characterizing the properties of the investigated individual structural components. 800 theo 720 6W 640 600 SM 510 ches Oy joo 360 Software 280 gozo about 1 "0 UO in 40 KCV,) / „ 10 th 5c 50 6 ° 70 vo 9o loo