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- NDT Simulation in industry
- Industrial sectors
- CIVA NDT Application Cases
- Upstream: Inspection before launching manufacturing
- In parallel: Optimize your radiographic inspection
- Upstream: Design and selection of a probe/source
- In parallel: Assessing the deterioration factors
- In parallel: Train and prepare your staff
- Upstream: Validate inspection procedure
- Upstream: Simulation to ensure successful implementation
- Upstream: Optimize your qualification process
- Upstream: Increase the reliability of your POD curves
- Downstream: Improve the reliability of your diagnosis
- Downstream: Optimize and analyse guided wave inspections
- Downstream: Assess complex phenomena in a UT inspection
- In parallel: Optimize the tomographic reconstruction through simulation
- Upstream: Optimize rail and wheelset NDT inspections
- Upstream: Support Structural Health Monitoring developments with simulation
- CIVA, NDT Simulation Software
- Generalities about CIVA
- CIVA NDT Modules
- Ultrasonic Testing with CIVA
- Guided Wave Testing with CIVA
- Structural Health Monitoring with CIVA
- Eddy Current Testing with CIVA
- Thermographic Testing with CIVA
- Radiographic Testing with CIVA
- Computed Tomography with CIVA
- Ultrasonic Testing Analysis with CIVA
- Ultrasonic Finite Elements with CIVA-ATHENA2D
- Ultrasonic Finite Difference simulation for composites inspection with CIVA FIDEL 2D
- AUT Pipeline testing with CIVA
- CIVA Education
- Experimental validation of models in UT
- Objectives of the experimental validation
- Ultrasound - Calibration defects
- Ultrasound - Comparison between different configurations in CIVA
- Ultrasound - Corner echoes
- Ultrasound - Phased Arrays
- Ultrasound - TOFD
- Ultrasound - Calibration
- Ultrasound - Shadowing
- Ultrasound - Geometrical echoes
- Ultrasound - Multiskip echoes
- Beam characterization of immersion probe on solid inclusions and an infinite plane
- Experimental validation of models in Eddy Current
- Experimental validation of models in Radiography
- TraiNDE
- Our NDT activity
- The company
- Legal Notices
- Interview - Steve Mahaut
- Interview - Michele Carboni
- Interview - Nicolas Dominguez
- Interview - Loïc de Roumilly
- Interview - Jean-Michel Puybouffat
- Interview - Gustavo Pinto Pires
- Interview - Håkon Hasting
- Interview - Jeff Milligan
- Interview - João Conte
- Interview - Elena Jasiuniene
- Interview - Uday Godbole
- Interview - Theo Martinez and Philippe Dumas
- Interview - Gérard Cattiaux
- Interview - Jean-Pierre Gustin
- Interview - Mike Lowe
- Interview - Manuel Plateau
- Interview - Olga Petrova
- Interview - Ivan Castro and Iratxe Aizpurua
- Interview - Gwenael Toullelan
- Interview - Wesley J. Keller
- Interview - Jiang Yunxi
- Interview - Fa-Chung Chen
- Interview - Vincent Pasquer
- Interview - Matthias Purschke
- Interview - Etienne Martin
- Interview - Larry Cote
- Interview - John C. Aldrin
- Interview - Lars Skoglund
- Interview - Alexey Slesarev
- Interview - Mario Cence
- Interview - Patrick Pichard
- Interview - Stéphane Le Berre
- Interview - Eric Bai
- Interview - Aroldo Claus
- Interview - Philippe Da Silva
- Interview - Curtis Schroeder
- Interview - Mukesh Arora
- Interview - Benoit Puel
- Interview - Alison Glover
- TraiNDE UT - Early access feedback
- Interview - Cyril Kouzoubachian
- Interview - Vivian Didier
- Interview - Carl Arnesson
- Interview - Jose Brizuela Sanchez
- Interview - Jonathan Peixoto
- Interview - Bengisu Yilmaz
- Interview - Ed Ginzel
- Interview - Mariana Burrowes Guimarães
- Interview - Peter Juarez
- Interview - Julien Banchet
- Interview - Joel François
- Interview - Jose-Luis Lanzagorta
- Interview - Philippe Rioux
- Interview - Thomas Livoye
- Interview - Ehsan Dehghan-Niri
- UT - TOFD : Results on the lower tip of a vertical notch
- UT - TOFD : Results on the top edge of a vertical notch
- UT - TOFD : Results on Side Drilled Holes
- UT - TOFD : Results on lateral waves
- UT - TOFD : Results on backwall echoes
- Multiskip cylindrical: Experimental and simulation setups
- Multiskip cylindrical: Measurement of the attenuation
- Multiskip cylindrical: Notch: results obtained with the flat specimen
- Multiskip cylindrical: Notch: results obtained with the cylindrical specimen
- Multiskip cylindrical: Notch: interpretation of the comparison results
- Multiskip cylindrical: Side Drilled Holes: interpretation of the comparison results
- Multiskip cylindrical: Conclusion
- Inclusion in water - single element - Experimental set-up
- Inclusion in water - single element - Simulation settings
- Inclusion in water - single element - 2.25 MHz probe
- Inclusion in water - single element - 5 MHz probe
- Inclusion in water - single element - 10 MHz probe
- Inclusion in water - single element - Conclusion
- Inclusion in water - phased-array - Experimental set-up
- Inclusion in water - phased-array - Simulation settings
- Inclusion in water - phased-array - Configuration without delay law
- Inclusion in water - phased-array - Configuration with delay law
- Inclusion in water - phased-array - Conclusion
- RT - Step wedge - Experimental protocol
- RT - Step wedge - Modeling using CIVA
- RT - Step wedge - Results
- RT - Step wedge - Analysis
- RT - Step wedge - Conclusions