SU1589203A1 - Method of inspecting heat failure of materials - Google Patents

Abstract

The invention relates to non-destructive testing of materials that are exposed to thermal effects, and can be used to control defects by acoustic and electromagnetic emission signals. The purpose of the invention is to enhance the functionality and increase the reliability due to the parallel registration of electromagnetic and acoustic emission signals. When the sample is heated, each of the two types of emission signals is recorded. The coordinates of the damage front are determined from the time lag of the acoustic emission signals relative to the electromagnetic emission signals and the intensity of crack growth along the jumps in the energy gradient of the signals.

Description

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The invention relates to the non-destructive control of materials under thermal exposure, and can be used to control defects by acoustic and electromagnetic emission signals.

The purpose of the invention is to enhance the functionality and increase the reliability due to the parallel registration of electromagnetic and acoustic emission signals.

The method of controlling the thermal destruction of materials is carried out as follows.

A sample of a material, such as a sample of composite material K-24, with dimensions of 250x250x 00 mm, is subjected to heat exposure with a constant temperature gradient over time. Heating is carried out

on one side of the sample, the temperature of the heated surface is controlled with a thermocouple. . At the other end of the sample (on the opposite side of the heated surface) a piezoceramic sensor is installed for recording acoustic emission signals and a ferromagnetic antenna for recording electromagnetic emission signals. Signals of acoustic emission and electromagnetic emission are recorded using a two-channel device, for example, AF-15, intended for recording emission signals in the frequency range 20–2000 kHz. Each of the two types of emission signals is recorded on a sequence of time intervals of equal duration, their energy is measured,

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the delay time between the acoustic and electromagnetic emission signals is determined. The magnitudes of the jumps in the energy gradient of acoustic acoustic emission signals are determined, and by their increase, the intensity of growth tpeiuHH at the boundary of the destruction front is judged. According to the delay time of the Acoustic Emission signals relative to the Electromagnetic Emission Signals, with | u t about the coordinates and the speed of repositioning of the destruction front.

I Thus, the proposed method allows one to expand the functional capabilities and increase the reliability of the control by determining the coordinates of the fracture front and the intensity of crack growth using parallel recorded electromagnetic and acoustic emission signals.

Claims (1)

Invention Formula The method of controlling the thermal destruction of materials, comprising that the material is heated, the signals of electromagnetic emission are recorded, the change is analyzed from the parameters in time and it is judged on the intensity of the growth of cracks at the boundary of the fracture front, about that and with the aim of expanding the functionality and Q increase reliability, additionally register acoustic emission signals for each of their two types of emission signals recorded for a sequence of time intervals of equal duration, measure their energy, determine the delay time between acoustic and electromagnetic emission signals, about the intensity pocta of cracks 0 at the boundary of the destruction front, judging by the increase in the energy gradient jumps of the acoustic emission signals, and about the coordinates and velocity of the destruction of the destruction front, by 5 time lag of acoustic emission signals relative to electromagnetic emission signals.