Abstract

Ultrasonic guided wave (UGW) testing is widely applied in numerous industry areas for the examination of pipelines where structural integrity is of concern. Guided wave testing is capable of inspecting long lengths of pipes from a single tool location using some arrays of transducers positioned around the pipe. Due to dispersive propagation and the multimodal behavior of UGW, the received signal is usually degraded and noisy, that reduce the inspection range and sensitivity to small defects. Therefore, signal interpretation and identifying small defects is a challenging task in such systems, particularly for buried/coated pipes, in that the attenuation rates are considerably higher compared with a bare pipe. In this work, a novel solution is proposed to address this issue by employing an advanced signal processing approach called “split-spectrum processing” (SSP) to minimize the level of background noise and enhance the signal quality. The SSP technique has already shown promising results in a limited trial for a bar pipe and, in this work, the proposed technique has been experimentally compared with the traditional approach for coated pipes. The results illustrate that the proposed technique significantly increases the signal-to-noise ratio and enhances the sensitivity to small defects that are hidden below the background noise.

Highlights

  • Ultrasonic guided wave (UGW) testing is one of the advanced Non-Destructive Testing (NDT)techniques and is known as long range ultrasonic testing

  • The results prove that the proposed technique with the optimum parameters is successful in enhancing the signal quality and increasing the signal-to-noise ratio (SNR) by approximately 40 dB compared to the conventional approach without distorting the reflection signal

  • A novel solution based on split-spectrum processing (SSP), which is an advanced signal processing approach, was proposed to address the problem of coherent noise due to the existence of undesired wave modes that are primarily dispersive in guided wave testing, in particular for coated pipes

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Summary

Introduction

Ultrasonic guided wave (UGW) testing is one of the advanced Non-Destructive Testing (NDT). Techniques and is known as long range ultrasonic testing. It uses a guided wave signal for testing complex structures such as bars, pipes, etc. A couple of dry transducer arrays are placed linearly around the structure’s circumference in this technology, with some distance from each other, to produce pure axisymmetric (Longitudinal or Torsional) wave modes. It propagates waves within the pipe wall and along the pipe’s main axis. The range of frequencies that are used for UGW testing is normally between 20–100 kHz and the pulse–echo principle is a common approach for UGW testing [1,2,3]

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