Add to ORKGGaussian beam superposition is applied to model representative standard transducers, which are used in aero engine disk inspection. Previously published approaches available in the literature have been applied and modified to account for rectangular and non-planar transducer apertures. Beam field calculation for both single and layered media is addressed
This contribution is aiming at the comparison of three computationallyefficient modeling codes: the ...
Ultrasonics constitute a commonly applied nondestructive technique for inspection of austenitic weld...
We wish to develop a model for the pitch-catch response of real transducers which is both accurate a...
Gaussian beam superposition is applied to model a variety of standard transducer types. Previously p...
Within the European research project VERDICT, the Gaussian beam superposition technique has been spe...
Anisotropic structural materials like fiber composites, but also columnar-grained stainless steels, ...
The Gaussian beam (GB) superposition approach can be applied to model ultrasound propagation in comp...
Beam field modeling using the superposition of Gaussian beams (GB) is highly efficient due to the lo...
We wish to develop a model for the pitch-catch response of real transducers which is both accurate a...
The presented Gaussian beam superposition technique allows for transducer field calculation in inhom...
The effects of diffraction play an important role in defining the performance of an ultrasonic inspe...
The propagation of high-frequency ultrasonic body waves can be efficiently estimated with a semi-ana...
The propagation of high-frequency ultrasonic body waves can be efficiently estimated with a semi-ana...
The use of simulation tools is essential for the improvement of currently applied inspection techniq...
In order to accurately predict the performance of immersion ultrasonic inspection techniques, it is ...
This contribution is aiming at the comparison of three computationallyefficient modeling codes: the ...
Ultrasonics constitute a commonly applied nondestructive technique for inspection of austenitic weld...
We wish to develop a model for the pitch-catch response of real transducers which is both accurate a...
Gaussian beam superposition is applied to model a variety of standard transducer types. Previously p...
Within the European research project VERDICT, the Gaussian beam superposition technique has been spe...
Anisotropic structural materials like fiber composites, but also columnar-grained stainless steels, ...
The Gaussian beam (GB) superposition approach can be applied to model ultrasound propagation in comp...
Beam field modeling using the superposition of Gaussian beams (GB) is highly efficient due to the lo...
We wish to develop a model for the pitch-catch response of real transducers which is both accurate a...
The presented Gaussian beam superposition technique allows for transducer field calculation in inhom...
The effects of diffraction play an important role in defining the performance of an ultrasonic inspe...
The propagation of high-frequency ultrasonic body waves can be efficiently estimated with a semi-ana...
The propagation of high-frequency ultrasonic body waves can be efficiently estimated with a semi-ana...
The use of simulation tools is essential for the improvement of currently applied inspection techniq...
In order to accurately predict the performance of immersion ultrasonic inspection techniques, it is ...
This contribution is aiming at the comparison of three computationallyefficient modeling codes: the ...
Ultrasonics constitute a commonly applied nondestructive technique for inspection of austenitic weld...
We wish to develop a model for the pitch-catch response of real transducers which is both accurate a...