Topic

Module 1: Basic Principles of Ultrasound and Ultrasound Testing
• Non-Destructive Testing (NDT)
• Sound versus ultrasound.
• Distance, velocity, cycle, material density.
• Sine wave, frequency, wavelength
• dB system
• The shell of an ultrasound instrument, ToFD probes, ToFD wedges
• Pulser/receiver, square pulse
• Wave propagation, scattering, absorption, energy spreading.
• Beam, sound field, beam diameter.
• Through transmission, pulse echo, angle beam, immersion, PAUT.
• A-Scan
• Structure and qualification of a procedure, training, acceptance criteria.
• Calibration blocks, couplant
• Marking on part, probe positioning
• Naming files, storing data
• Section’s test

Module 2: Principles underlying ToFD.
• Butt welds
• Digital instrument, pulser/receiver, digitizer, filters, gain
• Probes, frequency spectrum, signal waveform
• Wedges, hard wedges
• Scanner, encoder
• Huygens’ principle, diffraction
• Snell’s law, incident vs. refracted, critical angles
• ToFD A-Scan, phase shift, phase difference, averaging
• PCS, transit time, depth calculation, height calculation, position uncertainty
• Beam spread, beam spread in-wedge, beam spread in-part, frequency spectrum.
• Lateral wave, backwall, mode-converted backwall
• Dead zones, accuracy, resolution
• B-Scan, Gray scale
• Whisker effect, parabolic cursors
• Non-parallel and parallel scans
• Multiple scans
• Influence of frequency on coverage, dead zones
• Influence of wedge angle on time scale, coverage
• Influence of PCS on dead zones, resolution, coverage
• How to optimize the digitizing frequency, filters, averaging, time window, sensitivity, PRF
• Calibration of the beam index point, velocity
• Scanning speed
• Wedge delay calibration, lateral wave straightening, lateral wave removal
• Interactive exercises on set-ups, beam index point and velocity calibration, scanning.
• Interactive exercises on wedge delay calibration and lateral wave straightening
• Section’s test

Module 3: Data Analysis
• B-Scan perspective
• Lateral wave, backwall and mode-converted backwall signals
• Effect of beam spread on depth and the backwall signal.
• Indication classification, probe position vs. height, angle vs. height
• Geometrical indications, double-V welds, pipes misalignment, different wall thickness
• Data quality, calibration, basic analysis, detailed analysis
• Signal start, grouping, point-like indications.
• Height and depth, top-surface breaking, bottom-surface breaking, embedded.
• Length and position, parabolic shape, elongated and curved.
• Interactive viewer, top-surface breaking, bottom-surface breaking, embedded.
• Interactive exercises on set-up, beam index calibration, scanning, data analysis
• Section’s test

Module 4: Review
• Hardware
• Scans and views
• Theory
• Set-ups
• Calibration
• Data analysis
• The defects