Measurement and Simulation of the Propagation of Impulsive Acoustic Emission Sources in Pipes

Chika Judith Abolle-Okoyeagu, Samuel Fatukasi, Bob Reuben

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Abstract

Acoustic Emission (AE) testing is a non-destructive evaluation technique that has gained significant attention in pipeline monitoring. Pencil-lead breaks (PLBs) are commonly used in reproducing and characterising sensors used in AE applications and have emerged as a valuable tool for calibration processes. This technique involves breaking a pencil lead by pressing it on the surface of the test structure and applying a bending moment at a given angle on a surface. The applied force produces a local deformation on the test surface, which is released when the lead breaks. The fracture in these PLBs is assumed to be a step unload; however, this is not the case. In this work, a series of PLB source experiments complemented with parallel numerical simulations were carried out to investigate the actual unload rate by correlating the relationship between AE speed, frequency, and power from PLBs. This was achieved by varying the simulation unload rates recorded over a duration of 2 s on a steel pipe and comparing to the experiment. Analysis of the investigated results from the experimental and numerical models suggests that although the AE line structure of a PLB can be reproduced by simulation for short times only (1 µs), the actual unload rate for PLBs is in the region of 10–8 s. It is concluded that FEA has the potential to help in the recovery of the temporal structure from real AE structures. The establishment of this model will provide a theoretical basis for future studies on the monitoring of non-impulsive AE sources such as impact on pipelines using finite element analysis.
Original languageEnglish
Pages (from-to)620-637
Number of pages18
JournalAcoustics
Volume6
Issue number3
Early online date30 Jun 2024
DOIs
Publication statusPublished - Sept 2024

Keywords

  • acoustic emission
  • finite element analysis
  • solid cylinder
  • source identification
  • steel pipe

ASJC Scopus subject areas

  • Acoustics and Ultrasonics

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