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The parallel-sequential field subtraction technique for coherent nonlinear ultrasonic imaging

Research output: Contribution to journalArticle

Original languageEnglish
Article number065002
Number of pages10
JournalSmart Materials and Structures
Volume27
Issue number6
Early online date3 May 2018
DOIs
DateAccepted/In press - 9 Apr 2018
DateE-pub ahead of print - 3 May 2018
DatePublished (current) - Jun 2018

Abstract

Nonlinear imaging techniques have recently emerged which have the potential to detect cracks at a much earlier stage than was previously possible and have sensitivity to partially closed defects. This study explores a coherent imaging technique based on the subtraction of two modes of focusing: parallel, in which the elements are fired together with a delay law and sequential, in which elements are fired independently. In the parallel focusing a high intensity ultrasonic beam is formed in the specimen at the focal point. However, in sequential focusing only low intensity signals from individual elements enter the sample and the full matrix of transmit-receive signals is recorded and post-processed to form an image. Under linear elastic assumptions, both parallel and sequential images are expected to be identical. Here we measure the difference between these images and use this to characterise the nonlinearity of small closed fatigue cracks. In particular we monitor the change in relative phase and amplitude at the fundamental frequencies for each focal point and use this nonlinear coherent imaging metric to form images of the spatial distribution of nonlinearity. The results suggest the subtracted image can suppress linear features (e.g. back wall or large scatters) effectively when instrumentation noise compensation in applied, thereby allowing damage to be detected at an early stage (c. 15% of fatigue life) and reliably quantified in later fatigue life.

    Research areas

  • fatigue crack growth, noise compensation, nonlinear coherent imaging, ultrasonic phased array

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    Rights statement: This is the final published version of the article (version of record). It first appeared online via IOP at http://iopscience.iop.org/article/10.1088/1361-665X/aabcb2/meta . Please refer to any applicable terms of use of the publisher.

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