期刊
NDT & E INTERNATIONAL
卷 137, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.ndteint.2023.102827
关键词
Porosity cluster; Ultrasonic testing; Multiple scattering model; TFM; FMC imaging
Ultrasonic imaging using the Total Focusing Method (TFM) is useful for accurately locating and sizing defects, but can be distorted by multiple scattering phenomena when imaging clusters of pores. This study performs simulations in a 2D context with different scattering models, and compares the results with experimental tests using controlled sets of side-drilled holes. The use of a multiple scattering model improves the qualitative and quantitative accuracy of the TFM images by considering shadowing and interaction effects between defects.
Ultrasonic imaging using the Total Focusing Method (TFM) is very useful for locating and sizing defects accu-rately. However, when imaging clusters of pores, the results may be distorted by multiple scattering phenomena. Several simulations are performed in a 2D context considering different scattering model approaches: single scattering, single scattering including defect shadowing, and multiple scattering. In order to reproduce clusters of pores, we use sets of side-drilled holes to impose well-controlled properties (position and size) for comparison with experimental tests. Comparisons of the simulated TFM images with the experimental ones show qualitative and quantitative improvements when using the multiple scattering model, thanks in particular to a better consideration of shadowing and other interaction effects between defects.
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