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Communication Dans Un Congrès Année : 2017

UT simulation using a fully automated 3D hybrid model: Application to planar backwall breaking defects inspection

Résumé

The high frequency models gathered in the CIVA software allow fast computations and provide satisfactory quantitative predictions in a wide range of situations. However, the domain of validity of these models is limited since they do not accurately predict the ultrasound response in configurations involving subwavelength complex phenomena. In addition, when modelling backwall breaking defects inspection, an important challenge remains to capture the propagation of the creeping waves that are generated at the critical angle. Hybrid models combining numerical and asymptotic methods have already been shown to be an effective strategy to overcome these limitations in 2D. However, 3D simulations remain a crucial issue for industrial applications because of the computational cost of the numerical solver. A dedicated three dimensional high order finite element model combined with a domain decomposition method has been recently proposed to tackle 3D limitations. In this communication, we will focus on the specific case of planar backwall breaking defects, with an adapted coupling strategy in order to efficiently model the propagation of creeping waves. Numerical and experimental validations will be proposed on various configurations.
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Dates et versions

cea-04252030 , version 1 (20-10-2023)

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Alexandre Imperiale, Sylvain Chatillon, Michel Darmon, Nicolas Leymarie, Edouard Demaldent. UT simulation using a fully automated 3D hybrid model: Application to planar backwall breaking defects inspection. 44th Annual review of progress in quantitative nondestructive evaluation, Aug 2017, Provo, United States. pp.050004, ⟨10.1063/1.5031546⟩. ⟨cea-04252030⟩
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