SU1280524A1 - Electromagnetic-acoustic method of checking ferromagnetic articles - Google Patents

Abstract

The method of electromagnetic-acoustic quality control of sintered products, for example, after powder metallurgy. The aim of the invention is to improve the accuracy of control due to the detuning from the effects of the thickness of the product. An electromagnetic-acoustic transducer with an excitation coil, which is connected to the oscillating frequency generator, is installed on the surface of the monitored product. On the opposite surface of the product set electromagnetic-acoustic transducer with a receiving coil, which is connected to the resonance indicator. The product is affected by a magnetic field of constant magnitude, determining the frequencies of two adjacent resonances, the difference between which determines the quality of the sintered material, for example, its density. 3 il.

Description

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The invention relates to instrumentation engineering and can be used to control the structural properties of sintered ferromagnetic materials by an electromagnetically-electrostatic method.

The aim of the invention is to improve the accuracy of control of sintered products by eliminating geometrical dimensions fluctuations.

Figure 1 shows the block diagram of the device that implements the method to ntrol; FIG. 2 illustrates an example of two adjacent resoences 1 and II for samples A and B of different density; in FIG. 3. the dependence of the frequencies of the I and II H resonances and their differences d C on the density of sintered products.

The device contains two electromagnetic acoustic transducers with a rm 1. made of a magnetically soft material, permanent magnets 2, excitation coils 3 placed under the pluses of the transducer magnets 2 and an amplifier 4 connected to the OUTPUT of the amplifier, parallel to the frequency meter 6, and the receiving coil 7, placed above the poles of the second converter, which is connected through the amplifier 8 to the input of the resonance indicator 9, the electromagnetic-acoustic converters are installed Pour onto opposite sides of product 10.

When the density of the sintered product changes, the difference between the two frequencies adjacent to the resonance (Fig. 2) changes, and when the thickness of the products changes, this difference does not change. At the same time, the thickness of the products substantially changes the value of the resonant frequencies.

The method is as follows.

The generator 5 current through the amplifier 4 excites the coil 3 of the converter placed in the field of the magnet 2. Ultrasonic waves pass the product 10 and in the coil 7 induced EMF of the reverse electromagnetic-acoustic conversion, which is amplified by the amplifier 8 and recorded by the indicator 9. Indicator 9 records resonant peaks, the frequencies of which are determined by a frequency meter 6.

The transducers installed from opposite sides of step 10, changed the frequency of the exciting oscillations, determined the frequency of the first and then the second resonances, and found their differences. We found the value of these parameters on all samples of products. We determined the density of samples by hydrostatic weighing and constructed calibration graphs of the frequencies of the first and second resonances and their differences on the density of the samples. The results are shown in FIG.

The experimental dependences obtained confirmed the presence of a correlation relationship between the frequency difference between two neighboring resonances and the density of the samples. For sintered samples with dimensions of 12x12x70 mm and disks with a diameter of 50 mm and a height of 12 mm, the spread of the experimental values of the resonance frequency relative to the regression line averages about kHz or 5-10%, and for the difference of these frequencies - about 0.2 kHz, or 1 2%. Thus, the application of the proposed method for controlling the density of sintered products will allow 2-4 times less error.

In addition, the frequency difference between two adjacent resonances is practically independent of fluctuations in the geometric dimensions of the products, which also leads to increased reliability of control.

Claims (1)

Invention Formula Electromagnetic-acoustic method of controlling ferromagnetic products, consisting in magnetization from a constant field, excitation by an electromagnetic-acoustic transducer of acoustic waves at Hbix frequencies and recording the frequency of the first resonance, characterized in that change the frequency of excitation of the electromagnetic-acoustic transducer, determine the values of the frequencies of two adjacent resonances. and determine the defect by the difference of these frequencies ness products. W / 5 fff 25 30 35 4q Frequency bozbu dyachil  (Rig. 5.5 5.7 5.9 6.1 Density D g / cm Phage.