SU913295A1 - Method of checking ferromagnetic articles - Google Patents

Description

The invention relates to magnetic measurements and can be used in inspection.

A known method of controlling ferromagnetic products by the coercive force of the U-shaped electromagnets with ferro sensors operating at a constant value of the excitation current, at which the product is first magnetized and then demagnetized. The magnitude of the coercive force of the tested product in the known method is taken as the magnitude * current, which is measured at the moment when the useful signal in the measuring processing of the ferro sensor is zero (13 However, using a known method, small magnetic fluxes are measured.

There is also known a method of controlling ferromagnetic products magnetized by a U-shaped electromagnet with a ferro sensor on the residual magnetization, consisting in a magnetized 2

In the manufacture of products by a U-shaped electromagnet with a ferro sensor, the magnetizing current is turned off, an alternating voltage is applied to the excitation winding of the ferro sensor, and the value of the residual magnetic flux of the product is judged by a signal on its measuring winding (23. '

However, in this case, the residual magnetic flux is much less than the saturation magnetic flux. When a useful signal is extracted in the measuring winding of a ferro sensor with a magnification of the measured magnetic flux, a double digit appears in determining its value, since the useful signal first grows, reaches a maximum, and then falls. Therefore, the known method does not allow enough to measure the magnetic flux during magnetization of the product.

The purpose of the invention is to increase

accuracy.

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The goal is achieved by the method of controlling ferromagnetic products, which consists in magnetizing a product with a U-shaped electromagnet with a ferro sensor and applying alternating voltage to the excitation winding of the ferro sensor, prior to magnetization applying alternating voltage to the excitation winding of the ferro sensor, and during the magnetization, maintaining the amplitude AC 'voltage unchanged, control the amount of current in the field winding, which is judged on the quality of the product.

The drawing shows the dependence of the useful signal, in particular the current in the excitation circuit 3 $, on the magnitude of the magnetic fluxes Φ _and in the products corresponding to different saturation inductions with a constant magnetisation current. As can be seen from the drawing, the magnitude of the excitation current is linearly dependent on the saturation magnetic fluxes in the products.

The method is implemented as follows.

A U-shaped electromagnet with a ferro sensor is installed on a controlled ferromagnetic product and the magnetizing current is switched on. Before this, an alternating voltage is applied to the excitation winding of the ferro sensor. Next, the product is magnetized, in the process of magnetization the amplitude of the alternating voltage is maintained unchanged. Measure the amount of current in the excitation winding ferro sensor and it is judged on the suitability of the product.

This method was tested on a device - a U-shaped electromagnet with a ferro sensor, manufactured at the IPM ESC of the USSR Academy of Sciences, and showed good results. In practice, it is necessary to measure in the products large magnetic fluxes corresponding to inductions close to saturation, for example, when determining the amount of residual austenite in certain parts of the products. To reliably control the heat treatment of steel products

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ShKh 15 and ShH15SG it is necessary to measure not only the coercive force, but also the induction close to saturation. For example, the proposed method is suitable.

5 for local quality control of heat treatment of large-sized rolling bearing rings. Only at the GPP, more than 200 sizes of rings are produced, in some parts of which it is required to determine the amount of residual austenite.

Thus, this method makes it possible to control products by induction, close to saturation, which allows expanding the range of steels of controlled products

Claims (1)

Claim 20 The method of control of ferromagnetic products, which consists in magnetizing the product with a U-shaped electromagnet with a ferro sensor and 25 serves an alternating voltage on the excitation winding of a ferro sensor, characterized in that, in order to increase accuracy, an alternating current is applied before magnetization LP voltage at the excitation winding ferrodatchika, and during magnetization of maintaining a constant amplitude alternating voltage, control the amount of current in the excitation winding cart ₃₅ on which judge the quality of the product.