Phased Array Bolt Inspection, Encoded and Freehand
Bolts are used in every industry over multiple applications from holding storage vessels and structures to the ground to connecting high pressure pipework and holding wind turbine blades in place.
Bolts are critical for safety, structural integrity and are used in every industry over multiple applications from holding storage vessels and structures to the ground to connecting high pressure pipework and holding wind turbine blades in place. Here we demonstrate bolt inspection methods using ultrasonic phased array inspection both with and without encoding scanners.
Bolt integrity is vital for the long safe life of an asset. Traditionally bolts are either replaced after a set time period regardless of their condition, or removed and visually inspected for their integrity, this is both expensive and time consuming and generally requires the asset to be shutdown.
By utilising the VEO3 with various probes and scanners, bolts can be quickly and accurately inspected without the need for them to be removed. This data can be recorded and used in remaining life calculations for the asset, this allows the asset owner to better plan for the future of the asset and continue to run at capacity saving time and money.
The probe frequency and element count can be selected on a case by case basis to ensure the best resolution against penetrating power for each bolt.
Inspection Aims
The Data shown in this application note was taken on a 500mm long x 70mm diameter steel bolt with a 140mm long threaded section on one end (see image 1).
Within the bolt there were 6 induced defects, (1 notch and 2 cracks in the threaded area and 1 notch and 2 cracks in the shaft of the bolt) the aim of the inspection was to detect and measure each defect where possible.
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Inspection Procedure:
- The inspection was carried out from the “threaded” end of the bolt as the bolt side has raised lettering that prevents the coupling of the probe to the bolt
- The data was collected with an encoded scanner over a 250mm length (380°)
Inspection Setup:
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Equipment
Scan Setup
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Results
All 6 defects were successfully detected using both the S-scan and End view scans.
Surface breaking lengths can be estimated using the encoded End scan.
Defect 1: Depth – 80mm, Start from 0mm – 40mm, Length - 24mm
Defect 2: Depth – 93mm, Start from 0mm – 106mm, Length - 17mm
Defect 3: Depth – 82mm, Start from 0mm – 220mm, Length - 11mm
Defect 4: Depth – 260mm, Start from 0mm – 216mm, Length - 23mm
Defect 5: Depth – 430mm, Start from 0mm – 35mm, Length - 19mm
Defect 6: Depth – 370mm, Start from 0mm – 118mm, Length - 17mm
Inspection Images
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Conclusion
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