Ultrasonic testing is an important part of evaluating concrete infrastructure by finding flaws like holes, honeycombs, cracks, and delaminations in various structures.
Existing systems are not capable of determining quantitative material properties and inhomogeneities without subjective interpretation of complex data. With Salvus simulation and inversion on the following structures, you can improve the acquired concrete ultrasonic and acoustic data for better imaging and localization of defects.
In seismology, advanced numerical methods model the propagation of seismic waves in realistic geological media.
Salvus can mesh, simulate, and invert on all scales ranging from small scale basin level studies to the full globe. This naturally includes complexities like oceans, as well as internal and external topographies.
Ageing petrochemical assets need careful inspection; outcomes must be dependable and easily understood.
Salvus simulates multiple wave propagation physics, including coupled acoustic / viscoelastic waves propagating through air or liquid-filled pipelines, storage tanks and boreholes in two and three dimensions:
Inversions and simulations can be used to speed up the energy transition and can be applied on renewable assets such as wind blades, nuclear plants and hydrogen tanks.
By enhancing the knowledge and resolution of inspections, Salvus accelerates the validation of new materials and designs by finding flaws, mapping stress points and weak spots in the material. We have case studies in the following areas:
Ensure aircraft safety by detecting hidden flaws in metals, composites, and coatings.
Salvus is the first solution that can accurately simulate guided wave ultrasonics in attenuative anisotropic layered composite material. Our solutions assist in identifying flaws in aircraft that other NDT technologies frequently struggle to detect in locations such as:
