SU1193565A1 - Method of ferromagnetic article quality inspection - Google Patents

Abstract

METHOD OF CONTROL OF QUALITY OF FERROMAGNETIC PRODUCTS BY MAGNETIC PARAMETERS, which means that the product is magnetized to saturation. reduce the magnetizing field to zero and affect the product with a smoothly increasing magnetic field opposite to the magnetizing direction, characterized in that, in order to increase the reliability of the control, after reducing the magnetizing field to zero, the product is affected by an alternating magnetic field whose amplitude of intensity in the product exceeds the coercive force, smoothly reducing the alternating magnetic field to zero, and after exposure to a magnetic field opposite in direction i to the magnetizing field, the intensity of the field in the product is measured at induction, (L is zero, and the quality of the product is determined by the magnitude of the measured intensity.

Description

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The invention relates to non-destructive quality control of ferromagnetic products using magnetic parameters and can be used to determine the mechanical properties of these products.

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

FIG. Figure 1 shows the curves of the magnetization reversal of the product when an ac magnetic field is applied to it; in fig. Figures 2 and 3 show the dependences of the coercive force and intensity of the field in the product upon induction, which is equal to zero, on the parameter being monitored (tempering temperature).

FIG. Figure 1 shows a portion of the limiting hysteresis loop of the product material, as well as the curves of the magnetization reversal of the material in the form of the dependence of the magnetic induction B on the strength of the field H in the product. It also shows the nature of the change in H over time when an alternating magnetic field is applied to the product.

Characteristic points of dependence are: residual induction B, coercive force Hp, residual induction Bj in the product after exposure. VIA on it of an alternating magnetic field and the intensity of the floor in the product with an induction equal to zero N.

The method is carried out as follows.

The controlled product is magnetized to technical saturation and the magnetizing field is reduced to zero. In this state, the product is characterized by residual induction B) ,. Further, the product is affected by an alternating magnetic field, the amplitude of which intensity in the product exceeds the coercive force of the material, smoothly decreases the alternating

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magnetic field to zero. After this exposure, the product is partially demagnetized and is characterized by a residual induction of Bj. Then, 5 the product is influenced by a smoothly increasing reverse magnetic field, with respect to the magnetizing direction (the demagnetizing field), and the intensity of the field 10 in the product is measured with an induction equal to zero (H). The magnitude of the measured intensity Nd. The floor determines the quality of the product, for example, mechanical properties (hardness, tensile strength, relative elongation, etc.). FIG. Figures 2 and 3 show the dependences of the measured parameter H on the tempering temperature of samples of two steel grades: 34ХНЗМ (Fig. 2) and 20 60С2А (Fig. 3). The tempering temperature at a constant quenching mode (in this case quenching was carried out with the temperature in the oil for all samples) uniquely determines the mechanical properties of the products, therefore, can serve as a parameter for evaluating these properties. Samples in the form of a rectangular parallelepiped with dimensions of 10x10x65 mm are re-magnetized 30 in an open magnetic circuit (in a solenoid). Magnetization is produced in a magnetic field of about 700 A / cm-. An alternating magnetic field is created in the same solenoid by passing an alternating current of 50 Hz frequency through it, the amplitude of the magnetic field being 61.5 A / cm in the control of all samples, the intensity of the field in the part of the induction that is equal to zero It is the largest current in the solenoid and its magnetic constant. From FIG. 2 and 3, it is clear that the parameter Nl is uniquely related to the tempering temperature Tjjjfj in the whole bottom-tf temperature range.

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Claims (1)

METHOD FOR QUALITY CONTROL OF 'FERROMAGNETIC PRODUCTS by magnetic parameters, namely, that the product is magnetized to saturation, the magnetizing field is reduced to zero and the product is affected by a gradually increasing magnetic field opposite to the magnetizing direction, characterized in that, in order to increase the reliability control, after reducing the magnetizing field to zero, the product is exposed to an alternating magnetic field, the amplitude of which in the product exceeds the coercive force, melt to reduce the alternating magnetic field to zero, and after exposure to a magnetic field to reverse the direction of the magnetizing measured field intensity field © The stresses in the article at the induction is equal to zero, and the measured value of tension determine the quality of the product. S9SS61G ‘ΤΪ5>