SU1589202A1 - Method of simulating signals of acoustic emission - Google Patents

Abstract

The invention relates to non-destructive testing of products by acoustic emission signals (AE) and can be used to test the sensitivity of AE equipment to AE signals from cracks. The purpose of the invention is to increase the reliability of simulation of AE signals due to the preferential excitation in the product of acoustic waves of the required type, recorded by AE equipment. AE signals are excited by a fracture of a round rod with annular stress concentrators. The end of the rod, intended for connection with the product, is made in the form of a cone. 1 il.

Description

The invention relates to non-destructive testing of products based on acoustic emission (AE) signals and can be used to test the sensitivity of AE equipment to AE signals from cracks.

The purpose of the invention is to increase the reliability of simulation of AE signals due to the preferential excitation in the product of acoustic waves of the required type, recorded by AE equipment.

The drawing shows a sample for imitating AE signals.

The sample for imitating AE signals contains a round rod 1, a cone 2, which has a notch 3 aligned with it. From the upper end of the rod 1, annular concentrators A - 6, stresses are made at equal distances from one another. Total length of the plot

 rod 1 with u-6 voltage concentrators is substantially less than the length of the section L of rod 1 without them. The cone 2, connected by a vertex to the lower end of the rod 1, is one with it and has an angle X selected by the condition o (. Arcsin

С (-) where С is the longitudinal speed

Sf

waves in the rod material, C is the phase velocity of the wave in the product (not shown in the drawing), which must be excited by simulating AE signals.

The method is as follows.

in a way.

A specimen is placed on the product perpendicular to its surface to simulate AE signals, which is a round rod 1 with annular concentrates (L

with

Frames k - 6 voltages located at equal distances from the free end of the rod 1. The end of the rod 1, designed to be connected to the product, is made in the form of a cone 2 connected to the rod 1 by its apex and containing a coaxial recess on the base side. 06uiyro the length of the section of the rod 1 with concentrators - 6 is chosen on an order of magnitude less than the length of the section of the rod without them, and the angle e (cone. 2 is chosen from the condition cf c: arcsin (tr-), where C is the velocity prot

longitudinal wave in the material of the rod 1, Cf is the phase velocity of the wave in the product, which is excited by imitation of the AE signals of the defect of the product. Rod 1 is loaded in the region of the concentrator 4 closest to the free end to the fracture, AE signals from the fracture of Ster 1 are received on the product, imitating AE signals from a defect in the product, then the rod 1 is loaded in the area of the next concentrator 5 and the signals are received again AE “According to the AE signals received from the fractures of the rod 1 by the concentrators 4-6, the acoustic emission control system of the product (AE equipment) is calibrated.

Thus, the proposed method makes it possible to increase the reliability of simulating AE signals by performing the end of a rod with stress concentrators in the form of a cone and choosing a cone angle from the excitation condition in the product of the wave required for {calibration of the acoustic emission control system.

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Claims (1)

Invention Formula The method / imitation of acoustic emission signals from cracks, which consists in placing a round rod on a product perpendicular to the surface with evenly spaced, starting from its free end, annular concentrators,, production - loading of the rod in the region near the free end of the concentrator to the kink , then the rod is loaded in the area of the next concentrator, acoustic emission signals from a fracture of the rod are received at i-v deli, imitating acoustic emission signals from a defect in the product, according to they tare the acoustic emission monitoring system of the product, characterized in that, in order to increase the reliability of the signal simulation, the end of the rod intended to be mounted on the product is made in the form of a cone connected to the rod with an apex, with a coaxial conical recess on the base, the surface of which the equidistant side surface of the cone, the total length of the section of the rod with concentrators is an order of magnitude smaller than the length of the section of the rod without them, and the angle o (the cone choose from the condition o (arcsin (v-), F where C is the velocity of the longitudinal wave in the rod material; f-phase wave velocity in the product, which is excited by imitation of acoustic emission signals of a product defect. 6