Numerical Study of a Phased Array-Based Ultrasonic Polar Scan to Determine Plane-Wave Reflection Coefficients of Plates

Daemen, Jannes; Martens, Arvid; Kersemans, Mathias; Verboven, Erik; Delrue, Steven; Paepegem, Wim Van; Abeele, Koen Van Den

doi:10.1109/tuffc.2019.2931800

Cited by 4 publications

(3 citation statements)

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“…While the 2D simulations reported in previous work were conducted using FEM [12], full 3D FEM simulations of the proposed design proved to be too computationally expensive to perform. Therefore, it was opted to build an analytical model, also shown in Fig.…”

Section: Simulation Model and Data Analysismentioning

confidence: 99%

“…To understand this effect, one can consider the spatial extend of the reflected field, consisting of a direct, specular component and an indirect, non-specular component which is due to guided waves travelling through the plate and leaking into the surrounding water. Indeed, the leakage can be quite extensive such that part of this field may not be captured by the C-PA if its radius is too small [12]. This results in a loss of information, due to which the DFT-based post-processing procedure used to retrieve the reflection coefficients cannot be performed properly.…”

Section: A Radius Dependencementioning

confidence: 99%

“…In previous work, it was already shown via 2D simulations that the concept of using a C-PA can work along the main axes of orthotropy of a material [12]. However, in order to determine the full viscoelastic C-tensor, measurement data related to different polar angles are also needed, and unfortunately these incident angles could not be investigated with the 2D model.…”

Section: Introductionmentioning

confidence: 99%

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Optimal Design Parameters for a Phased-Array-Based Ultrasonic Polar Scan

Daemen

Martens

Kersemans

et al. 2021

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

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In the context of a next-generation Ultrasonic Polar Scan (UPS) measurement system, this research aims to look at the possibility to use a set of cylindrically focused emitters in conjunction with a Circular Phased Array (C-PA) receiver in order to create a portable measurement system, while improving the data quality. To do so, an three-dimensional analytical model is presented to simulate UPS experiments with the proposed system. In addition, a post-processing procedure is worked out to treat the acquired raw data with the aim to reconstruct the angle dependent plane wave reflection coefficients of the sample under study. As this reconstruction will depend heavily on various design parameters, three parameter studies are performed to find the optimal design. First, it the radius of the C-PA and the used frequency are varied, and it is shown that given a particular frequency, the radius must be large enough to capture the full reflected field such that an accurate reconstruction of the plane wave characteristics can be performed. Second, the emitter and receiver widths are varied and it is shown that by increasing either of them, better results can be achieved. However, in order to get the best results, both widths should be considerably large. Third, the pitch and the angular range of the cylindrically focused emitters are varied, and it is shown that if the pitch is too large, aliasing effects will disturb the results. However, this effect can somewhat be mitigated by using multiple emitters with a restricted angular range. Using the knowledge of the previous parameter studies, a simulated UPS experiment using a good set of design paramters is performed for a cross-ply Carbon Epoxy laminate which shows an excellent agreement with the theoretical plane wave results.

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Section: Simulation Model and Data Analysismentioning

confidence: 99%

Section: A Radius Dependencementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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