SU596876A1 - Electromagnetic-acoustic method of inspection of ferromagnetic articles - Google Patents

Description

The invention relates to the field of nondestructive testing and can be used to control ferromagnetic sheets, tapes, pipes.

The electromagnetic acoustic-acoustic control method is known; 1 by inputting ultrasonic waves into the product, according to which high-frequency and low-frequency magnetic fields are introduced into the product, and the quality of the product 1) is judged by the parameters of the received signal.

The disadvantage of this method is the impossibility of the simultaneous formation of longitudinal and transverse ultrasonic waves.

A known electromagnetic acoustic method for controlling ferromagnetic products by exciting ultrasonic normal waves in a ferromagnetic product, for example, in sheets, is that a high-frequency magnetic field of a transducer frame made in the shape of a rectangle and a low-frequency magnetic field are introduced into the product, and the parameters of the accepted court order

product quality 2.

The disadvantage of this method is also the low reliability of the control, in the form of the impossibility of the simultaneous formation of longitudinal and transverse ultrasonic waves.

The second method is technically closest to the described image. and adopted as a prototype.

The proposed method is characterized in that, in order to increase the control accuracy, the intensity vector of the low-frequency magnetic field is oriented with respect to the elongated sides of the frame at an angle, the value of which is chosen from the condition of obtaining equal amplitudes of transverse and longitudinal normal wave pulses on a given control base, and t frames are chosen from the condition:

where Cipi, C are the phase velocities of the transverse and longitudinal normal 8 waves, respectively, |, 2 are the lower and upper limiting frequencies of the spectrum of the excited high-frequency oscillations, respectively, and the minimum base L of the control is chosen from the condition:

Jt with gr.

L С- --7: articles to C, If.

where t is the duration of the received high-frequency pulse, СгртггоА, С gr miri- GruppOVYE

the velocities of the transverse and longitudinal normal waves, respectively.

FIG. 1 shows a high-frequency frame 1 with a distance between the elongated sides of the frame equal to t / 2, scattered on the controlled product 2. The arrows indicate the direction of the magnetic zero intensity vector N. U | OL between the long sides of the frame and the magnetic force vector strength from the condition of equality amilitude impulses of transverse and longitudinal normal waves. Mixes 3 in the longitudinal wave are depicted in the ZOX plane and mixes 4 in the transverse wave are in the plane YOX.

FIG. 2 shows the timing diagram, which shows the probe pulse 5 and the reflected 6, 7. Moreover, pulse 6 corresponds to a larger group velocity of propagation of waves, and pulse 7 - 1. 1.

The distance between pulses 5 and 6 corresponds to the time of passage of the wave with a higher group velocity, and the distance between the pulses 5, 7 corresponds to time; the passage of a wave with a smaller ruby velocity, g, is the distance between pulses 6, 7 corresponding to the duration of the pulse.

A high-frequency pulse with a frequency spectrum containing frequencies fi, 2 is knocked onto the frame with the selected step. Turning the field with the intensity vector H relative to the elongated sides of the frame achieve equal amplitude of the signals of the longitudinal and transverse waves 6, 7, the minimum base of the control is selected by changing the distance nor L from the reflector in such a way that the distance between pulses 6, 7 is not less than m — the duration of each pulse.

Depending on the task of controlling the product, the ratio of the amplitudes of the pulses of the transverse and longitudinal waves can vary by changing the angle between the elongated side of the frame and the intensity vector of the external magnetic field.

The method provides non-contact reception of ultrasonic vibrations, while the conversion processes occur in reverse order.

The use in the proposed method of two types of waves, both commercial and transverse, makes it possible to simultaneously receive signals reflected from different types of defects, and defects such as stratification are more reliably detected by longitudinal normal waves, and defects such as cracks and scratches. transverse normal waves, resulting in improved control accuracy.

Claims (2)

1. USSR author's certificate jV 391470, cl. G 01 N 29/04, 09/29/70. 2. Authors certificate of the USSR „Vg 191142, cl. G 01 N 27/86, 12.10.65. Wig.1