SU1103165A1 - Method of measuring coercive force - Google Patents

Abstract

A method for measuring a coercive force, which involves magnetizing a monitored product and recording an instantaneous value of a magnetizing field, characterized in that, in order to improve performance, differential permeability is measured by means of temperature patterns and magnetization permeability during magnetization, while at the maximum value of the differential magnetic permeability. .

Description

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The invention relates to magnetic measurements and is intended to determine the magnetic properties of ferromagnetic products. A known method for measuring the coercive force of ferromagnetic products, concluded that the product is magnetized, demagnetized, then remagnetized and demagnetized in the opposite direction, the sum of the demagnetization ratios obtained from the initial and repeated measurements, and the court t coercive force 15. The disadvantage of this method is the low productivity associated with the need to repeatedly re-magnetize the controlled object by fields of opposite magnitude. benefits in the process of change. Closest to the proposed technical entity is a method consisting in comparing a signal proportional to the induction modulus in a product with a reference signal unchanged in the limit: x measurement cycle. The product is demagnetized from the moment of the first coincidence of the said signals to the moment of their second coincidence, the demagnetizing current is counted at the second coincidence of the signals and according to the half-sum of the currents obtained at the First and the second coincidences of the signals of the coercive force G23. However, this method is characterized by low productivity due to the necessity of magnetization of the product by the field of one direction and subsequent reversal of the field of the opposite direction during the measurement. The aim of the invention is to increase speed, i .e. measurement performance. The goal is achieved in that, according to the method consisting in magnetizing the controlled product and recording the instantaneous value of the magnetizing field, the differential magnetic permeability is measured during the magnetization process, and at the maximum differential magnetic permeability the instantaneous value of the magnetizing field is determined. FIG. 1 is a block diagram of a device implementing the proposed method; in fig. 2 shows the timing diagram of the operation of this device. The device contains series-connected magnetizing current source 1, magnetizing. ss-enoid 2, resistor 3, as well as measuring coil 4 connected in series, pick comparator 5 and recorder 6, the second input of which is connected to the junction of resistor 3 and magnetizing solenoid 2. The coercimeter works as follows. A converter consisting of a magnetizing solenoid 2 and a measuring coil 4 is mounted on the surface of the monitored product 7. The source 1 of the magnetizing current supplies a linearly increasing current to the magnetizing solenoid 2 (Fig. 2о |). The signal on the measuring coil 4 has the form shown in Fig. 25. This signal. defined by the differential in in each modulation of the product, the time is determined by the value of the differential magnetic permeability dTT value - const. with a linearly increasing magnetizing current. Peak comparator 5 is triggered at the time T. when the signal of the measuring coil 4 has a maximum value. Therefore, the operation of the recorder 6 registers the instantaneous value of Uj. the voltage across the resistor 3 and turns off the source 1 of the magnetizing current. The measurement process is complete. According to the magnitude of the registered signal, the coercive force of the product is judged. The essence of the method is as follows. When the product 7 is magnetized, the induction from it changes along the main magnetization curve. Differential magnetic permeability jUjj on the main magnetization curve has a maximum (i.e., the main magnetization curve has an inflection) when the value of the magnetizing field is determined by the magnitude of the coercive force of the material of the product. Therefore, by measuring the instantaneous value of the magnetizing field at that moment in time when f has the maximum value, we obtain a signal proportional to the coercive force of N. materiapa of the product. The instantaneous value of the magnetizing field is judged by the recorded instantaneous value of the magnetizing current in the solenoid. On products with the same geometric dimensions (sheet thickness

etc.) measured in this way, the signal is determined only by the Hg value of the material of the product. Moreover, information about it is obtained when the product is magnetized.

The operation of reversal of its polarity in the opposite polarity is eliminated, which allows to increase the performance of measurements of H at least 2 times.

Claims (1)

METHOD FOR MEASURING THE COERCITIVE FORCE, which consists in magnetizing the controlled product and recording the instantaneous value of the magnetizing field, characterized in that, in order to increase the speed, the differential magnetic permeability is measured during magnetization, and at the maximum value of the differential magnetic permeability, the instantaneous value of the magnetizing field is determined. Figure 1 1 1103165