SU1408357A1 - Method of ultrasonic inspection of thin-wall pipes - Google Patents

Abstract

The invention relates to non-durable control and can be used for ultrasonic testing of the integrity of thin-walled pipes made of ferromagnetic materials. The aim of the invention is to increase the monitoring performance by increasing the area of the controlled area without losing sensitivity. The transducers are installed in the generator tube so that the emitting transducer is between receivers. The focal points of receiving transducers are located on the other side of the generator than the focal point of the radiating. The acoustic axes of the transducers are directed so that the reception of the focused beam is defocused, and the defocused beam is focused. In a single pass inspection, the entire cross section of the pipe is checked, which allows the control to be raised. 1 ILO I (L

Description

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The invention relates to the field of non-destructive testing and can be used with an ultrasonic relay with a layer of thin-walled ferromagnetic materials.

The purpose of the invention is a g-rise.

performance monitoring due to the increase in the area of the controlled area b4e loss of sensitivity. YU

The drawing shows a diagram of the distribution of acoustic oscillations and OB-Pc: calls from control zones,

Electromagnetic-acoustic foku

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transducers (EMAT) 1-3 5

mustache; mounted on pipe surface 4

one line 5 so that the kx acoustic axes 6–8 are directed at the same angle to the generator. The line 5 is an integral part of the tube 4, the radiating transducer 2 is placed between the receiving transducers 1 and 3 so that the focal points 9 and 10 of the receiving transducers 1 and 3 are located

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The shading shows the overlap of directivity patterns corresponding to the control zones, i.e., the effective detection zones for defects that have a linear extent along the circumference t), and the width corresponding to the shaded zones.

the other side of the generatrix 5 labor 4 than the focal point. I radiate

converter distance 35

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The method of ultrasonic testing of tubular pipes is carried out as follows.

On the surface of the pipe 4 (shown in 40 V | view of the endless sweep of its lateral | hey surface with the parameter 1i D) y | install on one of the forming, 51 cylindrical surfaces the EMAT group in the form of a block containing 45 o | q EMAP 2 for excitation of pulses from the ultrasonic vibrations and, for example;, EMAT 1 and 3 for simultaneous reception of pulses from the control zones, which are highlighted by hatching. EMAP 2 b compresses ultrasonic pulse

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at the same time, for example, the left helix. Ultrasonic vibration pulses, for example, the EMAT 1, are received by the defocused radiation pattern, and the EMAP 3 by the focused diagram simultaneously along the right helix lines.

When testing the pipe 4, the area of the control zones on both sides of the generator 5 is the same, the sensitivity of the control determined by the product of the sensitivities of the receiving and radiating transducers is also the same.

When using the proposed method, the entire pipe section is controlled in a single pass, which eliminates several returns during scanning, which increases the control performance.

Formula of invention

The method of ultrasonic testing of thin-walled pipes, which consists in installing electromagnetic-acoustic focusing transducers on the pipe surface along one line so that their acoustic axes are directed at the same angle to the generator, and one of the transducers excite ultrasonic vibrations in the pipe propagating along the helix , other transducers receive echo signals propagating along the opposite helix, according to which the integrity of the pipe material is judged, characterized by for the purpose of controlling povshe- audio performance, the electromagnetic-acoustic transducers mounted a focusing psche for forming pipe, the emitting transducer is placed between the receiving transducers so that the focal point of the focal point of the latter and emitting transducer are located on opposite sides of the forming pipe.

Claims (1)

Claim The method of ultrasonic control of thin-walled pipes, which consists in installing electromagnetic-acoustic focusing transducers on the pipe surface in one line so that their acoustic axes are directed at the same angle to the generatrix, one of the transducers excites ultrasonic vibrations in the pipe propagating along the helix, other transducers receive echoes propagating along the oncoming helix, by which they judge the integrity of the pipe material, characterized in that, with In order to increase the control performance, the electromagnetic-acoustic focusing transducers are installed along the generatrix of the pipe, the emitting transducer is placed between the receiving transducers so that the focal points of the latter and the focal point of the emitting transducer are located on opposite sides of the generatrix '.