SU1133542A1 - Method of registering crack propagation in materials - Google Patents

Abstract

METHOD OF REPRESENTATION OF DEVELOPMENT OF ALARM IN MATERIALS that the material under study is subjected to cyclic loading, signals of continuous acoustic emission are recorded, the number of loading cycles is recorded, and the parameters of acoustic emission signals, depending on the loading cycles, determine the nature of the crack development that the wave develops, the pattern of acoustic emission signals, depending on the loading cycles, determines the nature of the crack development, the pattern of crack development is determined by, according to the parameters of the acoustic emission signals, the extent of crack development is determined by the extent of the acoustic emission, which depends on the loading cycles the purpose of increasing the information content of the control by determining the stock of the pro.nichness and the moment of the beginning of the unstable development of the crack, fix the pulses of the discrete a acoustic emission, the amplitude envelope of a continuous acoustic emission, the appearance of discrete acoustic emission pulses with an amplitude exceeding the first amplitude of continuous acoustic emission on, determine the onset of unstable crack development, and by a fixed number of load cycles between two consecutive discrete pulses This acoustic emission determines the safety margin. 00 00 SP and tsD

Description

The invention relates to non-destructive testing and can be used to detect the development of cracks in materials using acoustic emission signals. The known method of controlling materials consists in cyclically loading the material under study, recording acoustic emission signals, recording the number of loading cycles, determining the average rate of change of acoustic emission signals depending on the number of loading cycles and judging by of microcrack With 1.7 The disadvantage of this method is that it can only be used to record the moment of microcrack occurrence in a continuous material and does not allow The kinetics of microcrack development, the closest to the invention in its technical essence and the achieved result, is the method for registering the development of cracks in materials, which consists in subjecting the material under investigation to cyclic loading, recording signals of continuous acoustic emission, recording the amount of loading cycle and acoustic emission signals, depending on the loading cycles, determine the nature of the development of crack Sh. The known method does not allow to determine the safety margin and atochnuyu durability of materials in which stability is accompanied by cracks unstable jump. The purpose of the invention is to increase the information content of the control by determining the margin; the strength and the moment of the beginning of unstable crack development. The goal is achieved by the fact that according to the method of registration developed cracks in materials, the conclusion is that the material under study is subjected to cyclic loading, signals of continuous acoustic emission are recorded, the number of loading cycles is recorded and the parameters of acoustic emission signals are determined by parameters of acoustic emission signals development of cracks, record pulses of discrete acoustic emission. 42 identify the amplitude envelope of continuous acoustic emission, the appearance of discrete acoustic emission pulses with an amplitude that exceeds the amplitude amplitude of continuous acoustic emission at ZOrfB, determine the time of the beginning of unstable crack development, and by a fixed number of loading cycles between two successive pulses of discrete acoustic emission, are margin of safety. The method is carried out as follows. A sample made from the test material is taken as a test object. This sample is subjected to cyclic loading, during which signals of continuous acoustic emission arising from the development of a fatigue crack are recorded. The amplitude envelope of the continuous acoustic emission is extracted and the number of loading cycles is recorded. In the first stages of cyclic loading, when the stress intensity factor is less than the critical value, signals of continuous acoustic emission with an insignificant level of amplitude occur, since this causes a steady growth of the fatigue crack. Further application of the cyclic load leads to an increase in the stress intensity factor, and an unstable jump in the development of the crack appears. This is accompanied by the appearance of a discrete acoustic emission pulse with an amplitude exceeding the amplitude envelope of continuous acoustic emission by 20 dB. This discrete acoustic emission pulse is detected. Subsequent similar pulses are then recorded during the application of a certain number of loading cycles, which is associated with the process of alternating stable and unstable crack development. The appearance of the first pulse of discrete acoustic emission with an amplitude of 20 dB greater than the envelope of the amplitude of continuous acoustic emission determines the onset of unstable crack development. The safety factor and residual durability of the material is determined taking into account the number of loading cycles between two successive pulses.

J1GZ-3424

The proposed method of registering a larger amplitude envelope

the development of cracks in materials due to acoustic emission, it becomes better to increase the information content, it is possible to determine the onset of non-stroke, because due to the registration of the crack and stockpiling of pulses of discrete acoustic strength and residual durability of emission with an amplitude of 20 db material

Claims (1)

METHOD OF REGISTRATION OF CRACK DEVELOPMENT IN MATERIALS, which consists in the fact that the test material is subjected to cyclic loading, continuous acoustic emission signals are recorded, the number of loading cycles is recorded and the parameters of the acoustic emission depending on the loading cycles determine the nature of the crack development, which differs in that, s In order to increase the information content of the control by determining the margin of safety and the moment of the onset of unstable crack development, impulses of discrete acoustic Coy emission emit a continuous envelope of acoustic emission amplitude pulses by the appearance of the discrete acoustic emission amplitude exceeding a continuous envelope g acoustic emission amplitude at 20 £ B is determined at the start of unstable crack propagation, and by a fixed number of cycles between the two. successive pulses of discrete acoustic emission determine the margin of safety. SU ... 1133542