Simulation software
Simulate wave phenomena in acoustics, seismology, and other fields to predict and analyze wave behavior in complex environments. Our tools support accurate modeling for engineering design and research applications.

By exploring new inspection techniques through simulations, you can innovate by evaluating the wave in a 2- or 3D virtual environment and optimize your settings to improve detection accuracy and reliability.

Industries relating to
Simulation software
Civil Infrastructure

Ultrasonic testing is an important part of evaluating concrete infrastructure by finding flaws like holes, honeycombs, cracks, and delaminations in various structures.

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Aerospace

Ensure aircraft safety by detecting hidden flaws in metals, composites, and coatings.

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Case studies relating to
Simulation software

Ultrasonic non-destructive testing PT duct grouting condition

PT duct analysis: Automatically infer defect scenario scores using digital twin modelling and full-waveform inversion

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Ultrasonic non-destructive testing simulations of steel-lined concrete penstocks

Using low frequency ultrasonic arrays it is feasible to inspect through steel liners and and detect voids in concrete

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Ultrasonic non-destructive testing simulations of bridge hangar pins under load.

Phased array ultrasonic inspection of bridge hangar pins

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Non-destructive testing of a concrete retaining wall

Application of full waveform inversion to ultrasonic inspection data acquired on a concrete structure.

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Non-destructive testing using guided waves in digital twins for CFRP-based objects

We show how accurate meshing as well as heterogeneous and anisotropic materials allow us to create physically accurate digital twins replicating ultrasonic guided waves in layered composites, fundamental to non-destructive testing.

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Ultrasonic inspection detection limit in Glass Fiber Reinforced Plastics (GFRP)

This case study shows the usage of Salvus for illustrating how different levels of attenuation in realistic materials influence the signals generated by material defects, thereby influencing the limits of detection.

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