SU1145251A1 - Method of determination of acoustic emission source coordinates in sheet materials - Google Patents

Abstract

A METHOD FOR DETERMINING COORDINATES OF SOURCES OF ACOUSTIC EMISSIONS IN SHEET MATERIALS, which consists in receiving acoustic emission signals from sources located in a selected control zone, in a given frequency range, a group of receivers located at the corners of a rectangle measure the arrival times of these signals at receivers and according to the measured times, the coordinates of these sources are determined, characterized in that, in order to show the accuracy of the determination, the frequency range is chosen in the region of existence at the end a controlled sheet of only zero modes of Lamb waves, and a group of receivers are shifted relative to the selected control zone by the offset value for planar control plots selected from condition Y MClKC max h mkn for linear control sections from condition) i, s MCXKC I, respectively MOlkc min the greatest and the least | S are the displacements of s or coordinates (L С receivers; Cj, are the So-o speeds of symmetric and antisymmetric Lamb zero waves, respectively; V is half the width of the imoA and the height of the rectangle; to the distance of displacement of the group of receivers along the basis of the SP coordinates parallel to the linear section of the control.

Description

The invention relates to the intact control Nfy and can be used to determine the coordinates of acoustic emission sources in sheet materials. A known method for determining the coordinates of acoustic emission sources in a weld of sheet materials is that a group of transducers located at angles of acoustic materials on both sides of the weld, so that the two sides of the rectangle are parallel to the weld, measure the propagation times of these signals and over them The coordinates of the acoustic emission sources are judged by the downhole of the known method. The accuracy of the coordinate determination results is low because the transducers are located symmetrically to the weld and it is impossible to separate the different Lamb wave modes propagating at different speeds. The closest to the invention in terms of technical essence and reachable result is a method for determining the coordinates of acoustic emission sources in sheet materials, which consists in receiving acoustic emission signals from sources located in a selected control zone in a given frequency range by a group of receivers located the corners of the rectangle measure the arrival times of these signals at the receivers and determine the coordinates of these sources C2 from the measured times. However, this method does not provide stovernogo determining coordinates in the articles from sheet mother als, as in sheet material ultrasound signals propagate in the form of different modes having different propagation velocities (e.g., symmetric Sp and acti symmetrical and fashion) and accordingly apparatus determines different values of coordinates of source signals. The aim of the invention is to increase the reliability of the determination. The goal is achieved by agreeing to the method of determining the coordinates of acoustic emission sources in 12 sheet materials, which consists in receiving acoustic emission signals from sources located in the selected control zone in a given frequency range by a group of receivers located at the corners of the rectangle. The arrival times of these signals are on (Receivers and, based on measured times, determine the coordinates of these sources; a given frequency range is chosen in the region of existence in the test sheet only the mode of Lamb wave modes, and the group of receivers are shifted relative to the selected control zone by the offset value for the planar control plots selected from the minus condition “ALII a and for the linear control portions from the condition T / bMW-fbM” where X, d ((2 J d, yn, respectively, on the MWKC 1 III, and the largest and smallest displacements of the coordinates of the receivers; Cd, Cq — respectively, the speeds of the symmetric and anti-axial zero Lamb waves; cf, b — half the width and height of the rectangle; I is the distance of the displacement of the group of receivers along the coordinate axis parallel to the linear portion of the control; The drawing shows the implementation of the method for determining the coordinates of acoustic emission sources in sheet materials. Ultrasonic transducers 1, 2.3, and 4 are located at the corners of a rectangle, whose length is 2A, and its height is 2B. Weld 5 passes through the area of this rectangle, two sides of which are parallel to weld 5. Extreme positions of signal sources in weld 5, at which the same pair of transducers (in this case, transducers 3 and i) receive the signal first the outlets of points A and B, the distances from which to the points of reception are designated 1. 2A AND e, c. The method of determining the coordinates of the sources of acoustic emission in sheet materials is as follows. Ultrasonic transducers 1, 2, 3, and 4 are installed at the vertices of the square. The amplification of received signals is performed in the frequency range chosen from the gif condition (for example, fg 0.6fj), where f j is the upper frequency of the operating range; f c is the lower excitation frequency of non-zero Lambao waves. This ensures reception of acoustic emission signals propagating only as signals of zero modes - symmetric 5 /, and antisymmetric H, respectively, Cd and tf. At the current speeds, the group of receivers and the associated coordinate system in the case of planar sections are shifted relative to the control zone from the condition In such a visit, despite the fact that Cc; / 7C | even for points with yas (even for points with smaller coordinates, coordinates are unequivocally determined, since when calculating coordinates using fashion signals, the spreads are smaller at lower speeds, the obtained values 51 7 times more and will be outside the control zone. For linear control sections, of the weld 5, the coordinate system and the group of receivers are shifted relative to the selected control zone from the condition N b (o.it) l (b4 (“- x) S” With this arrangement of receivers, the arrival interval of the zero symmetric Lamb wave mode at point B to receivers 3 and 4 by put m and Cj is less than the arrival interval of the zero antisymmetric Lamb wave mode from point A to receivers 3 and 4 in the way e and e, ... The last means, lA, that at the selected offset value, the results of determining the coordinates are one-to-one, i.e. determining the coordinates of the sources of AE signals. The time intervals between the arrival of signals at receivers 1,2,3 and 4 are measured and the coordinates of the sources of AE signals are calculated from them. The method of determining the coordinates of acoustic emission sources in sheet materials allows to increase the accuracy of measurements, since when only receiving zero modes of Lamb waves and displacement of a group of receivers relative to the selected control by the calculated value, ambiguity in determining the coordinates of AE sources is excluded.

Claims (1)

METHOD FOR DETERMINING THE COORDINATES OF SOURCES OF ACOUSTIC EMISSION IN SHEET MATERIALS, which consists in receiving acoustic emission signals from sources located in a selected control zone in a given frequency range by a group of receivers located at the corners of the rectangle, measure the arrival times of these signals to the receivers and from the measured at times, the coordinates of these sources are determined, characterized in that, in order to increase the reliability of the determination, the frequency range is selected in the area of existence in only the zero modes of Lamb waves, and the group of receivers is displaced relative to the selected control zone by the amount of displacement for planar control sections selected from the condition X C _s v s _m <hh,% 'mix, 5 ₀ -r <-X and —----- <-5— I min ^ a ₀ 'min ^with a ₀ a for linear sections of control from condition ^Г, ае МЫКС IX min ν V mlx ι min Γ θο '%, respectively, the largest and smallest offset coordinates of the receivers; respectively, the speed of symmetric and antisymmetric zero Lamb waves; half the width and height of the rectangle; the offset distance of the receiver group along the coordinate axis parallel to the linear portion of the control. >