SU892286A1 - Device for ferromagnetic object mechanical property non-destructive testing - Google Patents

Description

(5) DEVICE FOR NON-DESTRUCTIVE MONITORING OF MECHANICAL PROPERTIES OF FERROMAGNETIC FIELDS The invention relates to the field of non-destructive testing and can be used to control the mechanical properties of ferromagnetic pipes, rods, tapes and other extended objects in the course of their movement. A device for non-destructive testing of mechanical properties of ferromagnetic objects is known, which contains a magnetizing head powered by a pulse generator, a reading head connected to a signal processing unit, and an erasing winding made on a magnetizing head, performing the function of negative feedback when the variation between the sight the object's surface is controlled and the reading head {, 1 J. However, the known + 1 device does not provide the necessary control reliability, since such a suppression of the influence gap clearance is effective only when the -Useful SURFACE OBJECT is exceeded over its change in changing the gap. In addition, the feedback does not work at saturation. object control, which reduces the sensitivity of the control. The closest to the invention. According to the technical essence, there is a device for non-destructive testing of ferromagnetic objects containing two annular permanent magnet magnetized along the axis, installed axially and facing each other with the same poles, measuring inductance coil placed between the permanent ring magnets axially with them , an amplifier connected by its input to an inductance measuring coil, and a recorder 2}. The disadvantage of this device is that it does not provide the required reliability of the control, as it is on. The Barkhausen frequency of the jumps recorded by the device affects

not only the structure of the object of control, but also the speed of magnetic reversal, depending on the speed of movement of the controlled material.

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

The goal is achieved by the fact that the device is equipped with a transducer of displacement speed, a transducer of voltage to frequency and a frequency ratio meter, the output of which is connected to the recorder, and the inputs corresponding to the outputs of the amplifier and voltage transducer connected to the transducer of the speed of movement.

The drawing shows a block diagram of the device.

The device contains two annular magnets 1 and 2 magnetized along the axis and mounted axially and facing each other with like poles, measuring inductance coil 3 connected to the input of amplifier C, movement speed converter 5 connected to the input of voltage converter 6 to frequency connected to the input of the meter 7, the ratio of the frequencies connected by its second input to the output of the it amplifier, and the output to the recorder 8.

The device works as follows.

When a controlled material moves in the field of directional counter-constant ring magnets 1 and 2 in the measuring coil 3, Barkhausen jumps are induced. These pulses are amplified by an amplifier k and are fed to one of the inputs of the meter 7 frequency ratio. The signal from the transducer 5 of the travel speed, proportional to the speed of magnetization reversal of the monitored material, is converted by the transducer 6 to the frequency of the pulses that are fed to the second input of the meter 7 frequency ratio. The frequency ratio meter 7 performs the Barkhausen jump frequency pressure operation,

proportional to the change in the structure of the controlled material and its speed, on the frequency of the pulses, proportional only to the speed of the controlled material. Thus, at the output of the frequency ratio meter 7, a signal is obtained that is proportional only to the structure of the monitored material, which measures the recording instrument.

The application of the proposed device allows increasing the accuracy of controlling the mechanical properties of a moving ferromagnetic material due to the exclusion of the effect of speed on the results of the control.

Claims (2)

1.Patent UK No. 106776, cl. G 01 N, 1967. 2. USSR author's certificate fp 451970, cl. G 01 R 33/12, 1970 (prototype). tt