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Ultrasonic Modelling for Non-destructive Testing

Ultrasonic Modelling for Non-destructive Testing

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Ultrasonic techniques are used for non-destructive purposes to assess the properties and state of structures designed for a wide range of applications (engineering, construction materials, medicine, etc.). Different types of material properties (mechanical, chemical, physical, biological, etc.) with different physical states/compositions (solid, liquid, heterogeneous, inhomogeneous, complex, moving, etc.) can be studied. This reprint delves into mutually dependent subfields including, but not restricted to, ultrasonic wave techniques for classical non-destructive testing (NDT) and structural health monitoring; new methods for imaging; ultrasonic characterization; non-linear acoustics; acoustic emission; laser ultrasonics; sensors; signal and noise analysis. This Special Issue explores notably some advances in ultrasonic modeling methods for understanding or predicting NDT inspections. The simulation tools developed can be based on different mathematical/physical theories or assumptions; for example, semi-analytical, numerical, and hybrid models can be used for direct simulation and model benchmarking, inversion theory for imaging and damage localization, as well as artificial intelligence. The reprint constructs a comprehensive collection of research and development trends that will serve as a convenient reference for NDT experts, as well as new practitioners.

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Keywords

  • 3D-FE modeling
  • Acoustic holography
  • air-coupled ultrasonic
  • CFRC composite plate
  • complex structure
  • ConvLSTM
  • corner behaviour
  • Corrosion
  • crack
  • critical load
  • critical thickness
  • damage detection and localization
  • data-driven modeling
  • deep learning
  • defect detection
  • delay-and-sum (DAS) algorithm
  • elasticity
  • elastodynamic wave propagation
  • embedded PZT transducers
  • experimental validation
  • explainable Augmented Intelligence
  • fiber-reinforced polymer (FRP)
  • Finite element
  • Finite element method
  • finite element modeling
  • flaw detection
  • Fluid dynamics
  • full waveform inversion
  • Green’s function retrieval
  • ground penetrating radar (GPR)
  • guided waves
  • Hammerstein model
  • high-performance computing
  • ice-coupled ultrasonic testing
  • immersed guided waves
  • impact localization
  • impact point damage
  • Lamb wave
  • Lamb waves
  • laser array
  • layered media
  • liquid metal
  • Marchenko equation
  • Monitoring
  • n/a
  • NDT data
  • non-destructive method
  • non-destructive testing
  • non-destructive testing (NDT)
  • Non-destructive Testing/Evaluation (NDT/NDE)
  • Nondestructive testing
  • Nonlinear systems
  • numerical models comparison
  • phased array ultrasonic (PAU)
  • photoacoustic imaging
  • piezoelectric sensors
  • plastic films
  • plates
  • pressurized spherical shell
  • pulse compression
  • real-time electronics
  • Reinforced concrete
  • RNN
  • Scattering
  • Service life
  • smart repair patch
  • spatio-temporal datasets
  • spec-radiation
  • Structural health monitoring
  • structural health monitoring (SHM)
  • supervised descent method
  • thorax imaging
  • topological energy method
  • trapped-mode
  • ultrasonic characterization
  • ultrasonic guided waves
  • ultrasonic imaging and inversion
  • ultrasonic systems
  • ultrasonic testing (UT)
  • ultrasonic wave propagation
  • ultrasound
  • ultrasound traveltime tomography
  • ultrasounds
  • wavefront superposition

Links

DOI: 10.3390/books978-3-7258-0758-1

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