SU777567A1 - Steel mechanical properties testing method - Google Patents

Description

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The invention relates to the means of structuroscopy of ferromagnetic materials by electromagnetic methods and can be used to control the quality of the steel structure after heat treatment.

There is a known method for controlling the mechanical properties of steel, which consists in that a steel sample is remagnetized and records a "return field, based on the value of which is judged on the quality of steel. However, the accuracy of control of the yield and strength limits by this method is insufficient, since “the return field ambiguously characterizes these limits.

The method of controlling the mechanical properties of steel that is closest to that proposed by the technical essence is known: the steel sample is simultaneously in contact with the poles of two U-shaped magnetic cores of magnetizing and transformed nodes, the sample is remagnetised, the process of magnetization reversal is recorded by the converter node, and and the output signal of the conversion node is judged on the results of the control 2.

However, the reliability of the control in this way of the strength and yield strength of the steel is insufficient, since a ferrosonde probe is used as a converter unit, according to the signal extremum of which the results of the control are judged.

The extremum of the forrosonde signal, without taking into account the relationship between its value and the values of the current and the cross section of the steel sample, does not unambiguously characterize the limits of strength and yield strength of steel.

The purpose of this invention is to increase the reliability of the control limits.

10 strength and yield strength of steel.

This goal is achieved by using an eddy current converter as the converter node, from the output signal of which the second harmonic of the excitation signal is extracted, its maximum value is recorded and the current value in the magnetizing node is recorded according to the ratio between these values and the steel sample cross section determine the strength and fluidity of steel.

The drawing shows the block diagram of the device that implements this method.

It contains two U-shaped magnetic wires 1 and 2, respectively magnetizing and converter units (as the last one using a vortex converter), on which windings 3, 4, 5 are placed, respectively connected to sources of direct and alternating current and to the signal analyzer (not shown in the drawing).

The poles of the magnetic cores 1 and 2 are in contact with a controlled sample of steel 6. The magnetic core 1 covers the magnetic core 2, and the distance between their poles is selected from the ratio 1: 10.

The device operates as follows.

Changing the constant current in the winding 3 magnetizes the sample 6, and with it, respectively, the magnetic cores 1 and 2, i.e. they create an initial mode on a constant magnetic field, then this current is reduced to zero and excite the winding 4 with alternating current the value at which the second harmonic of the excitation signal from winding 5 will be maximum. Again, the DC current in winding 3 is increased, while the amplitude of the second harmonic increases to a maximum value that exceeds the previous maximum.

The values of direct magnetizing current and the maximum value of the second-harmonic emf are recorded.

The ratios are determined

with t

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the value of direct current in the winding 3 at the maximum value of the second harmonic emf;

maximum value of the second harmonic emf;

S is the cross section of a steel sample in cm.

Claims (2)

1. The author's certificate number 429329, G OIN 27/86, 1974. 2. Authors certificate of the USSR No. 625408, G OSH 27/86, 1977 (prototype).