Inspection Procedure :
– Signed by a ASNT level 3 (UT)
– Specific and exclusive to some instruments
– Very detailed (configuration, calibration, …)
– Prepared, tested and ready to deliver quickly
– Presented with our client logo
– “Scan plans” specific to the project (in extra)
Configuration Files :
– Specific instrument configuration files
– Optimized for the applications
Report Templates in Excel format :
– Report templates in editable Excel format
Demonstration reports :
– Detailed performance tests reports
– On real or machined reflectors in samples
– Internal prequalification according to standards
– Tests inspection data available (if applicable)
Practice Data Files :
– Example data files for analysis practice
– Example of results from real problematics
Accessory Equipment :
– Scanners
– Probes
– Wedges
– Calibration blocks
Technical Support :
– Training (general or specific)
– On-site support
– Data analysis and review
– Remote technical support
List of available solutions for the Petrochemical insdustry :
GEN-PAM-001 – Thickness Loss Detection – Manual Phased-Array UT
Standard(s) :
– ASTM E797
– ASME, Sect. V, Art. 4
Material(s) :
– Carbon stell (P-No: 1)
– Stainless steel (P-No: 4)
Thicknessess : from 0.100’’ (2,5 mm) to 2.0’’ (51 mm)
Diameters : from 3.0’’ (76 mm) and above
Temperatures : from -20°C (-5°F) to 150°C (300°F)
Indication(s) of interest :
– Corrosion and pitting at the opposite surface
– Erosion at the opposite surface
Advantages :
– Fast coverage of large surfaces
– Excellent probability of detection of localized thickness loss
– Screenshots recording
– Accurate sizing of indications
– Accurate thickness measurement
Available Elements :
– Detailed procedure
– Excel report template
– Demonstration report
– Probe and wedges
– Instrument configurations
– Training and technical support
PTC-PAE-013 – Piping Thickness Mapping – Encoded Phased-Array UT
Standard(s) :
– ASTM E797
– ASME, Sect. V, Art. 4
Material(s) :
– Carbon steel (P-No: 1)
– Stainless steel (P-No: 4)
Thicknesses : from 0.100’’ (2,5 mm) to 1.0’’ (25,4 mm)
Diameters : from 3.0’’ (76 mm) to 36’’ (915 mm)
Temperatures : from -20°C (-5°F) to 115°C (240°F)
Indication(s) of interest :
– Corrosion and pitting at the opposite surface
– Erosion at the opposite surface
Advantages :
– Recorded data for future comparison
– Excellent probability of detection of localized thickness loss
– Accurate sizing of indications
– Accurate thickness measurement
– Possibility to provide results in Excel format
Available Elements :
– Detailed procedure
– Excel report template
– Demonstration report
– Scanner, probe, wedges
– StaThick software to put results in Excel format
– Instrument configurations
– Training and technical support
PTC-PAE-010 – Shell Thickness Mapping – Encoded Phased-Array UT
Standard(s) :
– ASTM E797
– ASME, Sect. V, Art. 4
Material(x) :
– Carbon steel (P-No: 1)
– Stainless steel (P-No: 4)
Thicknesses : from 0.100’’ (2,5 mm) to 2.0’’ (51 mm)
Diameters : 12.0’’ (305 mm) and above
Temperatures : from -20°C (-5°F) to 150°C (300°F)
Indication(s) of interest :
– Corrosion and pitting at the opposite surface
– Erosion at the opposite surface
Advantages :
– Recorded data for future comparison
– Excellent probability of detection of localized thickness loss
– Accurate sizing of indications
– Accurate thickness measurement
– Possibility to provide results in Excel format
Available Elements :
– Detailed procedure
– Excel report template
– Demonstration report
– Scanner, probe, wedges
– StaThick software to put results in Excel format
– Instrument configurations
– Training and technical support
PTC-PAE-011 – Equipment Heads Thickness Mapping – Encoded Phased-Array UT
Standard(s) :
– ASTM E797
– ASME, Sect. V, Art. 4
Material(x) :
– Carbon steel (P-No: 1)
– Stainless steel (P-No: 4)
Thicknesses : from 0.100’’ (2,5 mm) to 2.0’’ (51 mm)
Diameters : 36.0’’ (915 mm) and above
Temperatures : from -20°C (-5°F) to 150°C (300°F)
Indication(s) of interest :
– Corrosion and pitting at the opposite surface
– Erosion at the opposite surface
Advantages :
– Recorded data for future comparison
– Excellent probability of detection of localized thickness loss
– Accurate thickness measurement
– Possibility to provide results in Excel format
Available Elements :
– Detailed procedure
– Excel report template
– Scanner, probe, wedges
– StaThick software to put results in Excel format
– Instrument configurations
– Training and technical support
PTC-PAM-050 – Hydrogen Blistering Detection – Manual Phased-Array UT
Standard(s) :
– ASTM E114
Material(s) :
– Carbon steel (P-No: 1)
Thicknesses : from 0.100’’ (2,5 mm) to 4.0’’ (102 mm)
Diameters : 12.0’’ (305 mm) and above
Temperatures : from -20°C (-5°F) to 150°C (300°F)
Indication(s) of interest :
– Hydrogen blisters (parallel to surfaces)
Advantages :
– Fast coverage of large surfaces
– Excellent probability of detection of small indications
– Screenshots recording
– Accurate sizing of indications
– Easy interpretation
Available Elements :
– Detailed procedure
– Excel report template
– Probe and wedges
– Instrument configurations
– Training and technical support
PTC-PAE-050 – Hydrogen Blistering Monitoring – Encoded Phased-Array UT
Standard(s) :
– ASTM E114
Material(s) :
– Carbon steel (P-No: 1)
Thicknesses : from 0.100’’ (2,5 mm) to 4.0’’ (102 mm)
Diameters : 12.0’’ (305 mm) and above
Temperatures : from -20°C (-5°F) to 150°C (300°F)
Indication(s) of interest :
– Hydrogen blisters (parallel to surfaces)
– Corrosion and pitting at the opposite surface
– Erosion at the opposite surface
Advantages :
– Recorded data for future comparison
– Excellent probability of detection of small indications
– Quickly capture a large number of indications
– Accurate sizing of indications
Éléments disponibles :
– Detailed procedure
– Excel report template
– Scanner, probe, wedges
– Instrument configurations
– Training and technical support
PTC-PAE-101 – Storage Tank Welds – Encoded Phased-Array UT
Standard(s) :
– API 650, Appendix U
Material(s) :
– Carbon steel (P-No: 1)
Thicknesses : from 0.375’’ (10,0 mm) to 1.0’’ (25,4 mm)
Diameters : 6.0’ (1,8 m) and above
Temperatures : from -20°C (-5°F) to 150°C (300°F)
Weld Types :
– Butt joints
– Single and Double “V”
– With or without backing bar
– Particularly for annular ring joints
Advantages :
– Recorded data available for review
– Requires access to only one surface (vs RT)
– Do not require a safety exposition perimeter (vs RT)
– Fast acquisition
Available Elements :
– Detailed procedure
– Excel report template
– Prequalification report
– Scanner, prbe and wedges
– Instrument configurations
– Training and technical support
PTC-PAM-150 – Crack Detection and Sizing – Manual Phased-Array UT
Standard(s) :
– ASME, Sect. V, Art. 4
Material(s) :
– Carbon steel (P-No: 1)
– Stainless steel (P-No: 4)
Thicknesses : from 0.5’’ (12,7 mm) to 8.0’’ (200 mm)
Diameters : 6.0’’ (150 mm) and above
Temperatures : from -20°C (-5°F) to 95°C (200°F)
Indication(s) of interest :
– Cracks at both contact and opposite surfaces
Advantages :
– Requires access to only one surface
– Possibility to save screenshots
or record crack profile with an encoder
– Excellent probability of detection
– Accurate sizing
– Easier interpretation (vs UT)
Available Elements :
– Detailed procedure
– Excel report template
– Demonstration report
– Scanner, probe and wedges
– Instrument configurations
– Training and technical support
PTC-TOFD-150 – Crack Detection and Sizing – TOFD
Standard(s) :
– ASTM, E2373
– ASME, Sect. V, Art. 4
Material(s) :
– Carbon steel (P-No: 1)
Thicknesses : from 0.5’’ (12,7 mm) to 6.0’’ (300 mm)
Diameters : 6.0’’ (150 mm) and above
Temperatures : from -20°C (-5°F) to 150°C (300°F)
Indication(s) of interest :
– Cracks at the opposite surface
Advantages :
– Requires access to one one surface
– Recorded data for future comparison
– Excellent probability of detection
– Accurate sizing of crack depth
– Fast acquisition
Available Elements :
– Detailed procedure
– Excel report template
– Scanner, probe and wedges
– Instrument configurations
– Training and technical support
